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-rw-r--r--nvme-print-stdout.c5174
1 files changed, 5174 insertions, 0 deletions
diff --git a/nvme-print-stdout.c b/nvme-print-stdout.c
new file mode 100644
index 0000000..63462ea
--- /dev/null
+++ b/nvme-print-stdout.c
@@ -0,0 +1,5174 @@
+// SPDX-License-Identifier: GPL-2.0-or-later
+#include <assert.h>
+#include <errno.h>
+#include <stdio.h>
+#include <string.h>
+#include <stdlib.h>
+#include <time.h>
+#include <sys/stat.h>
+
+#include <ccan/ccan/strset/strset.h>
+#include <ccan/ccan/htable/htable_type.h>
+#include <ccan/ccan/htable/htable.h>
+#include <ccan/ccan/hash/hash.h>
+
+#include "nvme.h"
+#include "libnvme.h"
+#include "nvme-print.h"
+#include "nvme-models.h"
+#include "util/suffix.h"
+#include "util/types.h"
+#include "common.h"
+
+static const uint8_t zero_uuid[16] = { 0 };
+static const uint8_t invalid_uuid[16] = {[0 ... 15] = 0xff };
+static const char dash[100] = {[0 ... 99] = '-'};
+
+static struct print_ops stdout_print_ops;
+
+static const char *subsys_key(const struct nvme_subsystem *s)
+{
+ return nvme_subsystem_get_name((nvme_subsystem_t)s);
+}
+
+static const char *ctrl_key(const struct nvme_ctrl *c)
+{
+ return nvme_ctrl_get_name((nvme_ctrl_t)c);
+}
+
+static const char *ns_key(const struct nvme_ns *n)
+{
+ return nvme_ns_get_name((nvme_ns_t)n);
+}
+
+static bool subsys_cmp(const struct nvme_subsystem *s, const char *name)
+{
+ return !strcmp(nvme_subsystem_get_name((nvme_subsystem_t)s), name);
+}
+
+static bool ctrl_cmp(const struct nvme_ctrl *c, const char *name)
+{
+ return !strcmp(nvme_ctrl_get_name((nvme_ctrl_t)c), name);
+}
+
+static bool ns_cmp(const struct nvme_ns *n, const char *name)
+{
+ return !strcmp(nvme_ns_get_name((nvme_ns_t)n), name);
+}
+
+HTABLE_DEFINE_TYPE(struct nvme_subsystem, subsys_key, hash_string,
+ subsys_cmp, htable_subsys);
+HTABLE_DEFINE_TYPE(struct nvme_ctrl, ctrl_key, hash_string,
+ ctrl_cmp, htable_ctrl);
+HTABLE_DEFINE_TYPE(struct nvme_ns, ns_key, hash_string,
+ ns_cmp, htable_ns);
+
+static void htable_ctrl_add_unique(struct htable_ctrl *ht, nvme_ctrl_t c)
+{
+ if (htable_ctrl_get(ht, nvme_ctrl_get_name(c)))
+ return;
+
+ htable_ctrl_add(ht, c);
+}
+
+static void htable_ns_add_unique(struct htable_ns *ht, nvme_ns_t n)
+{
+ struct htable_ns_iter it;
+ nvme_ns_t _n;
+
+ /*
+ * Test if namespace pointer is already in the hash, and thus avoid
+ * inserting severaltimes the same pointer.
+ */
+ for (_n = htable_ns_getfirst(ht, nvme_ns_get_name(n), &it);
+ _n;
+ _n = htable_ns_getnext(ht, nvme_ns_get_name(n), &it)) {
+ if (_n == n)
+ return;
+ }
+ htable_ns_add(ht, n);
+}
+
+struct nvme_resources {
+ nvme_root_t r;
+
+ struct htable_subsys ht_s;
+ struct htable_ctrl ht_c;
+ struct htable_ns ht_n;
+ struct strset subsystems;
+ struct strset ctrls;
+ struct strset namespaces;
+};
+
+static int nvme_resources_init(nvme_root_t r, struct nvme_resources *res)
+{
+ nvme_host_t h;
+ nvme_subsystem_t s;
+ nvme_ctrl_t c;
+ nvme_ns_t n;
+ nvme_path_t p;
+
+ res->r = r;
+ htable_subsys_init(&res->ht_s);
+ htable_ctrl_init(&res->ht_c);
+ htable_ns_init(&res->ht_n);
+ strset_init(&res->subsystems);
+ strset_init(&res->ctrls);
+ strset_init(&res->namespaces);
+
+ nvme_for_each_host(r, h) {
+ nvme_for_each_subsystem(h, s) {
+ htable_subsys_add(&res->ht_s, s);
+ strset_add(&res->subsystems, nvme_subsystem_get_name(s));
+
+ nvme_subsystem_for_each_ctrl(s, c) {
+ htable_ctrl_add_unique(&res->ht_c, c);
+ strset_add(&res->ctrls, nvme_ctrl_get_name(c));
+
+ nvme_ctrl_for_each_ns(c, n) {
+ htable_ns_add_unique(&res->ht_n, n);
+ strset_add(&res->namespaces, nvme_ns_get_name(n));
+ }
+
+ nvme_ctrl_for_each_path(c, p) {
+ n = nvme_path_get_ns(p);
+ if (n) {
+ htable_ns_add_unique(&res->ht_n, n);
+ strset_add(&res->namespaces, nvme_ns_get_name(n));
+ }
+ }
+ }
+
+ nvme_subsystem_for_each_ns(s, n) {
+ htable_ns_add_unique(&res->ht_n, n);
+ strset_add(&res->namespaces, nvme_ns_get_name(n));
+ }
+ }
+ }
+
+ return 0;
+}
+
+static void nvme_resources_free(struct nvme_resources *res)
+{
+ strset_clear(&res->namespaces);
+ strset_clear(&res->ctrls);
+ strset_clear(&res->subsystems);
+ htable_ns_clear(&res->ht_n);
+ htable_ctrl_clear(&res->ht_c);
+ htable_subsys_clear(&res->ht_s);
+}
+
+static void stdout_feature_show_fields(enum nvme_features_id fid,
+ unsigned int result,
+ unsigned char *buf);
+static void stdout_smart_log(struct nvme_smart_log *smart,
+ unsigned int nsid,
+ const char *devname);
+
+static void stdout_predictable_latency_per_nvmset(
+ struct nvme_nvmset_predictable_lat_log *plpns_log,
+ __u16 nvmset_id, const char *devname)
+{
+ printf("Predictable Latency Per NVM Set Log for device: %s\n",
+ devname);
+ printf("Predictable Latency Per NVM Set Log for NVM Set ID: %u\n",
+ le16_to_cpu(nvmset_id));
+ printf("Status: %u\n", plpns_log->status);
+ printf("Event Type: %u\n",
+ le16_to_cpu(plpns_log->event_type));
+ printf("DTWIN Reads Typical: %"PRIu64"\n",
+ le64_to_cpu(plpns_log->dtwin_rt));
+ printf("DTWIN Writes Typical: %"PRIu64"\n",
+ le64_to_cpu(plpns_log->dtwin_wt));
+ printf("DTWIN Time Maximum: %"PRIu64"\n",
+ le64_to_cpu(plpns_log->dtwin_tmax));
+ printf("NDWIN Time Minimum High: %"PRIu64" \n",
+ le64_to_cpu(plpns_log->ndwin_tmin_hi));
+ printf("NDWIN Time Minimum Low: %"PRIu64"\n",
+ le64_to_cpu(plpns_log->ndwin_tmin_lo));
+ printf("DTWIN Reads Estimate: %"PRIu64"\n",
+ le64_to_cpu(plpns_log->dtwin_re));
+ printf("DTWIN Writes Estimate: %"PRIu64"\n",
+ le64_to_cpu(plpns_log->dtwin_we));
+ printf("DTWIN Time Estimate: %"PRIu64"\n\n\n",
+ le64_to_cpu(plpns_log->dtwin_te));
+}
+
+static void stdout_predictable_latency_event_agg_log(
+ struct nvme_aggregate_predictable_lat_event *pea_log,
+ __u64 log_entries, __u32 size, const char *devname)
+{
+ __u64 num_iter;
+ __u64 num_entries;
+
+ num_entries = le64_to_cpu(pea_log->num_entries);
+ printf("Predictable Latency Event Aggregate Log for"\
+ " device: %s\n", devname);
+
+ printf("Number of Entries Available: %"PRIu64"\n",
+ (uint64_t)num_entries);
+
+ num_iter = min(num_entries, log_entries);
+ for (int i = 0; i < num_iter; i++) {
+ printf("Entry[%d]: %u\n", i + 1,
+ le16_to_cpu(pea_log->entries[i]));
+ }
+}
+
+static void stdout_persistent_event_log_rci(__le32 pel_header_rci)
+{
+ __u32 rci = le32_to_cpu(pel_header_rci);
+ __u32 rsvd19 = (rci & 0xfff80000) >> 19;
+ __u8 rce = (rci & 0x40000) >> 18;
+ __u8 rcpit = (rci & 0x30000) >> 16;
+ __u16 rcpid = rci & 0xffff;
+
+ if(rsvd19)
+ printf(" [31:19] : %#x\tReserved\n", rsvd19);
+ printf("\tReporting Context Exists (RCE): %s(%u)\n",
+ rce ? "true" : "false", rce);
+ printf("\tReporting Context Port Identifier Type (RCPIT): %u(%s)\n", rcpit,
+ (rcpit == 0x00) ? "Does not already exist" :
+ (rcpit == 0x01) ? "NVM subsystem port" :
+ (rcpit == 0x02) ? "NVMe-MI port" : "Reserved");
+ printf("\tReporting Context Port Identifier (RCPID): %#x\n\n", rcpid);
+}
+
+static void stdout_persistent_event_entry_ehai(__u8 ehai)
+{
+ __u8 rsvd1 = (ehai & 0xfc) >> 2;
+ __u8 pit = ehai & 0x03;
+
+ printf(" [7:2] : %#x\tReserved\n", rsvd1);
+ printf("\tPort Identifier Type (PIT): %u(%s)\n", pit,
+ (pit == 0x00) ? "PIT not reported and PELPID does not apply" :
+ (pit == 0x01) ? "NVM subsystem port" :
+ (pit == 0x02) ? "NVMe-MI port" :
+ "Event not associated with any port and PELPID does not apply");
+}
+
+static void stdout_add_bitmap(int i, __u8 seb)
+{
+ for (int bit = 0; bit < 8; bit++) {
+ if (nvme_pel_event_to_string(bit + i * 8)) {
+ if (nvme_pel_event_to_string(bit + i * 8))
+ if ((seb >> bit) & 0x1)
+ printf(" Support %s\n",
+ nvme_pel_event_to_string(bit + i * 8));
+ }
+ }
+}
+
+static void stdout_persistent_event_log(void *pevent_log_info,
+ __u8 action, __u32 size,
+ const char *devname)
+{
+ __u32 offset, por_info_len, por_info_list;
+ __u64 *fw_rev;
+ int fid, cdw11, dword_cnt;
+ unsigned char *mem_buf = NULL;
+ struct nvme_smart_log *smart_event;
+ struct nvme_fw_commit_event *fw_commit_event;
+ struct nvme_time_stamp_change_event *ts_change_event;
+ struct nvme_power_on_reset_info_list *por_event;
+ struct nvme_nss_hw_err_event *nss_hw_err_event;
+ struct nvme_change_ns_event *ns_event;
+ struct nvme_format_nvm_start_event *format_start_event;
+ struct nvme_format_nvm_compln_event *format_cmpln_event;
+ struct nvme_sanitize_start_event *sanitize_start_event;
+ struct nvme_sanitize_compln_event *sanitize_cmpln_event;
+ struct nvme_set_feature_event *set_feat_event;
+ struct nvme_thermal_exc_event *thermal_exc_event;
+ struct nvme_persistent_event_log *pevent_log_head;
+ struct nvme_persistent_event_entry *pevent_entry_head;
+
+ int human = stdout_print_ops.flags & VERBOSE;
+
+ offset = sizeof(*pevent_log_head);
+
+ printf("Persistent Event Log for device: %s\n", devname);
+ printf("Action for Persistent Event Log: %u\n", action);
+ if (size >= offset) {
+ pevent_log_head = pevent_log_info;
+ printf("Log Identifier: %u\n", pevent_log_head->lid);
+ printf("Total Number of Events: %u\n",
+ le32_to_cpu(pevent_log_head->tnev));
+ printf("Total Log Length : %"PRIu64"\n",
+ le64_to_cpu(pevent_log_head->tll));
+ printf("Log Revision: %u\n", pevent_log_head->rv);
+ printf("Log Header Length: %u\n", pevent_log_head->lhl);
+ printf("Timestamp: %"PRIu64"\n",
+ le64_to_cpu(pevent_log_head->ts));
+ printf("Power On Hours (POH): %s",
+ uint128_t_to_l10n_string(le128_to_cpu(pevent_log_head->poh)));
+ printf("Power Cycle Count: %"PRIu64"\n",
+ le64_to_cpu(pevent_log_head->pcc));
+ printf("PCI Vendor ID (VID): %u\n",
+ le16_to_cpu(pevent_log_head->vid));
+ printf("PCI Subsystem Vendor ID (SSVID): %u\n",
+ le16_to_cpu(pevent_log_head->ssvid));
+ printf("Serial Number (SN): %-.*s\n",
+ (int)sizeof(pevent_log_head->sn), pevent_log_head->sn);
+ printf("Model Number (MN): %-.*s\n",
+ (int)sizeof(pevent_log_head->mn), pevent_log_head->mn);
+ printf("NVM Subsystem NVMe Qualified Name (SUBNQN): %-.*s\n",
+ (int)sizeof(pevent_log_head->subnqn),
+ pevent_log_head->subnqn);
+ printf("Generation Number: %u\n",
+ le16_to_cpu(pevent_log_head->gen_number));
+ printf("Reporting Context Information (RCI): %u\n",
+ le32_to_cpu(pevent_log_head->rci));
+ if (human)
+ stdout_persistent_event_log_rci(pevent_log_head->rci);
+ printf("Supported Events Bitmap: \n");
+ for (int i = 0; i < 32; i++) {
+ if (pevent_log_head->seb[i] == 0)
+ continue;
+ stdout_add_bitmap(i, pevent_log_head->seb[i]);
+ }
+ } else {
+ printf("No log data can be shown with this log len at least " \
+ "512 bytes is required or can be 0 to read the complete "\
+ "log page after context established\n");
+ return;
+ }
+ printf("\n");
+ printf("\nPersistent Event Entries:\n");
+ for (int i = 0; i < le32_to_cpu(pevent_log_head->tnev); i++) {
+ if (offset + sizeof(*pevent_entry_head) >= size)
+ break;
+
+ pevent_entry_head = pevent_log_info + offset;
+
+ if ((offset + pevent_entry_head->ehl + 3 +
+ le16_to_cpu(pevent_entry_head->el)) >= size)
+ break;
+ printf("Event Number: %u\n", i);
+ printf("Event Type: %s\n", nvme_pel_event_to_string(pevent_entry_head->etype));
+ printf("Event Type Revision: %u\n", pevent_entry_head->etype_rev);
+ printf("Event Header Length: %u\n", pevent_entry_head->ehl);
+ printf("Event Header Additional Info: %u\n", pevent_entry_head->ehai);
+ if (human)
+ stdout_persistent_event_entry_ehai(pevent_entry_head->ehai);
+ printf("Controller Identifier: %u\n",
+ le16_to_cpu(pevent_entry_head->cntlid));
+ printf("Event Timestamp: %"PRIu64"\n",
+ le64_to_cpu(pevent_entry_head->ets));
+ printf("Port Identifier: %u\n",
+ le16_to_cpu(pevent_entry_head->pelpid));
+ printf("Vendor Specific Information Length: %u\n",
+ le16_to_cpu(pevent_entry_head->vsil));
+ printf("Event Length: %u\n", le16_to_cpu(pevent_entry_head->el));
+
+ offset += pevent_entry_head->ehl + 3;
+
+ switch (pevent_entry_head->etype) {
+ case NVME_PEL_SMART_HEALTH_EVENT:
+ smart_event = pevent_log_info + offset;
+ printf("Smart Health Event Entry: \n");
+ stdout_smart_log(smart_event, NVME_NSID_ALL, devname);
+ break;
+ case NVME_PEL_FW_COMMIT_EVENT:
+ fw_commit_event = pevent_log_info + offset;
+ printf("FW Commit Event Entry: \n");
+ printf("Old Firmware Revision: %"PRIu64" (%s)\n",
+ le64_to_cpu(fw_commit_event->old_fw_rev),
+ util_fw_to_string((char *)&fw_commit_event->old_fw_rev));
+ printf("New Firmware Revision: %"PRIu64" (%s)\n",
+ le64_to_cpu(fw_commit_event->new_fw_rev),
+ util_fw_to_string((char *)&fw_commit_event->new_fw_rev));
+ printf("FW Commit Action: %u\n",
+ fw_commit_event->fw_commit_action);
+ printf("FW Slot: %u\n", fw_commit_event->fw_slot);
+ printf("Status Code Type for Firmware Commit Command: %u\n",
+ fw_commit_event->sct_fw);
+ printf("Status Returned for Firmware Commit Command: %u\n",
+ fw_commit_event->sc_fw);
+ printf("Vendor Assigned Firmware Commit Result Code: %u\n",
+ le16_to_cpu(fw_commit_event->vndr_assign_fw_commit_rc));
+ break;
+ case NVME_PEL_TIMESTAMP_EVENT:
+ ts_change_event = pevent_log_info + offset;
+ printf("Time Stamp Change Event Entry: \n");
+ printf("Previous Timestamp: %"PRIu64"\n",
+ le64_to_cpu(ts_change_event->previous_timestamp));
+ printf("Milliseconds Since Reset: %"PRIu64"\n",
+ le64_to_cpu(ts_change_event->ml_secs_since_reset));
+ break;
+ case NVME_PEL_POWER_ON_RESET_EVENT:
+ por_info_len = (le16_to_cpu(pevent_entry_head->el) -
+ le16_to_cpu(pevent_entry_head->vsil) - sizeof(*fw_rev));
+
+ por_info_list = por_info_len / sizeof(*por_event);
+
+ printf("Power On Reset Event Entry: \n");
+ fw_rev = pevent_log_info + offset;
+ printf("Firmware Revision: %"PRIu64" (%s)\n", le64_to_cpu(*fw_rev),
+ util_fw_to_string((char *)fw_rev));
+ printf("Reset Information List: \n");
+
+ for (int i = 0; i < por_info_list; i++) {
+ por_event = pevent_log_info + offset +
+ sizeof(*fw_rev) + i * sizeof(*por_event);
+ printf("Controller ID: %u\n", le16_to_cpu(por_event->cid));
+ printf("Firmware Activation: %u\n",
+ por_event->fw_act);
+ printf("Operation in Progress: %u\n",
+ por_event->op_in_prog);
+ printf("Controller Power Cycle: %u\n",
+ le32_to_cpu(por_event->ctrl_power_cycle));
+ printf("Power on milliseconds: %"PRIu64"\n",
+ le64_to_cpu(por_event->power_on_ml_seconds));
+ printf("Controller Timestamp: %"PRIu64"\n",
+ le64_to_cpu(por_event->ctrl_time_stamp));
+ }
+ break;
+ case NVME_PEL_NSS_HW_ERROR_EVENT:
+ nss_hw_err_event = pevent_log_info + offset;
+ printf("NVM Subsystem Hardware Error Event Code Entry: %u, %s\n",
+ le16_to_cpu(nss_hw_err_event->nss_hw_err_event_code),
+ nvme_nss_hw_error_to_string(nss_hw_err_event->nss_hw_err_event_code));
+ break;
+ case NVME_PEL_CHANGE_NS_EVENT:
+ ns_event = pevent_log_info + offset;
+ printf("Change Namespace Event Entry: \n");
+ printf("Namespace Management CDW10: %u\n",
+ le32_to_cpu(ns_event->nsmgt_cdw10));
+ printf("Namespace Size: %"PRIu64"\n",
+ le64_to_cpu(ns_event->nsze));
+ printf("Namespace Capacity: %"PRIu64"\n",
+ le64_to_cpu(ns_event->nscap));
+ printf("Formatted LBA Size: %u\n", ns_event->flbas);
+ printf("End-to-end Data Protection Type Settings: %u\n",
+ ns_event->dps);
+ printf("Namespace Multi-path I/O and Namespace Sharing" \
+ " Capabilities: %u\n", ns_event->nmic);
+ printf("ANA Group Identifier: %u\n",
+ le32_to_cpu(ns_event->ana_grp_id));
+ printf("NVM Set Identifier: %u\n", le16_to_cpu(ns_event->nvmset_id));
+ printf("Namespace ID: %u\n", le32_to_cpu(ns_event->nsid));
+ break;
+ case NVME_PEL_FORMAT_START_EVENT:
+ format_start_event = pevent_log_info + offset;
+ printf("Format NVM Start Event Entry: \n");
+ printf("Namespace Identifier: %u\n",
+ le32_to_cpu(format_start_event->nsid));
+ printf("Format NVM Attributes: %u\n",
+ format_start_event->fna);
+ printf("Format NVM CDW10: %u\n",
+ le32_to_cpu(format_start_event->format_nvm_cdw10));
+ break;
+ case NVME_PEL_FORMAT_COMPLETION_EVENT:
+ format_cmpln_event = pevent_log_info + offset;
+ printf("Format NVM Completion Event Entry: \n");
+ printf("Namespace Identifier: %u\n",
+ le32_to_cpu(format_cmpln_event->nsid));
+ printf("Smallest Format Progress Indicator: %u\n",
+ format_cmpln_event->smallest_fpi);
+ printf("Format NVM Status: %u\n",
+ format_cmpln_event->format_nvm_status);
+ printf("Completion Information: %u\n",
+ le16_to_cpu(format_cmpln_event->compln_info));
+ printf("Status Field: %u\n",
+ le32_to_cpu(format_cmpln_event->status_field));
+ break;
+ case NVME_PEL_SANITIZE_START_EVENT:
+ sanitize_start_event = pevent_log_info + offset;
+ printf("Sanitize Start Event Entry: \n");
+ printf("SANICAP: %u\n", sanitize_start_event->sani_cap);
+ printf("Sanitize CDW10: %u\n",
+ le32_to_cpu(sanitize_start_event->sani_cdw10));
+ printf("Sanitize CDW11: %u\n",
+ le32_to_cpu(sanitize_start_event->sani_cdw11));
+ break;
+ case NVME_PEL_SANITIZE_COMPLETION_EVENT:
+ sanitize_cmpln_event = pevent_log_info + offset;
+ printf("Sanitize Completion Event Entry: \n");
+ printf("Sanitize Progress: %u\n",
+ le16_to_cpu(sanitize_cmpln_event->sani_prog));
+ printf("Sanitize Status: %u\n",
+ le16_to_cpu(sanitize_cmpln_event->sani_status));
+ printf("Completion Information: %u\n",
+ le16_to_cpu(sanitize_cmpln_event->cmpln_info));
+ break;
+ case NVME_PEL_SET_FEATURE_EVENT:
+ set_feat_event = pevent_log_info + offset;
+ printf("Set Feature Event Entry: \n");
+ dword_cnt = set_feat_event->layout & 0x03;
+ fid = le32_to_cpu(set_feat_event->cdw_mem[0]) & 0x000f;
+ cdw11 = le32_to_cpu(set_feat_event->cdw_mem[1]);
+
+ printf("Set Feature ID :%#02x (%s), value:%#08x\n", fid,
+ nvme_feature_to_string(fid), cdw11);
+ if (((set_feat_event->layout & 0xff) >> 2) != 0) {
+ mem_buf = (unsigned char *)(set_feat_event + 4 + dword_cnt * 4);
+ stdout_feature_show_fields(fid, cdw11, mem_buf);
+ }
+ break;
+ case NVME_PEL_TELEMETRY_CRT:
+ d(pevent_log_info + offset, 512, 16, 1);
+ break;
+ case NVME_PEL_THERMAL_EXCURSION_EVENT:
+ thermal_exc_event = pevent_log_info + offset;
+ printf("Thermal Excursion Event Entry: \n");
+ printf("Over Temperature: %u\n", thermal_exc_event->over_temp);
+ printf("Threshold: %u\n", thermal_exc_event->threshold);
+ break;
+ default:
+ printf("Reserved Event\n\n");
+ break;
+ }
+ offset += le16_to_cpu(pevent_entry_head->el);
+ printf("\n");
+ }
+}
+
+static void stdout_endurance_group_event_agg_log(
+ struct nvme_aggregate_predictable_lat_event *endurance_log,
+ __u64 log_entries, __u32 size, const char *devname)
+{
+ printf("Endurance Group Event Aggregate Log for"\
+ " device: %s\n", devname);
+
+ printf("Number of Entries Available: %"PRIu64"\n",
+ le64_to_cpu(endurance_log->num_entries));
+
+ for (int i = 0; i < log_entries; i++) {
+ printf("Entry[%d]: %u\n", i + 1,
+ le16_to_cpu(endurance_log->entries[i]));
+ }
+}
+
+static void stdout_lba_status_log(void *lba_status, __u32 size,
+ const char *devname)
+{
+ struct nvme_lba_status_log *hdr;
+ struct nvme_lbas_ns_element *ns_element;
+ struct nvme_lba_rd *range_desc;
+ int offset = sizeof(*hdr);
+ __u32 num_lba_desc, num_elements;
+
+ hdr = lba_status;
+ printf("LBA Status Log for device: %s\n", devname);
+ printf("LBA Status Log Page Length: %"PRIu32"\n",
+ le32_to_cpu(hdr->lslplen));
+ num_elements = le32_to_cpu(hdr->nlslne);
+ printf("Number of LBA Status Log Namespace Elements: %"PRIu32"\n",
+ num_elements);
+ printf("Estimate of Unrecoverable Logical Blocks: %"PRIu32"\n",
+ le32_to_cpu(hdr->estulb));
+ printf("LBA Status Generation Counter: %"PRIu16"\n", le16_to_cpu(hdr->lsgc));
+ for (int ele = 0; ele < num_elements; ele++) {
+ ns_element = lba_status + offset;
+ printf("Namespace Element Identifier: %"PRIu32"\n",
+ le32_to_cpu(ns_element->neid));
+ num_lba_desc = le32_to_cpu(ns_element->nlrd);
+ printf("Number of LBA Range Descriptors: %"PRIu32"\n", num_lba_desc);
+ printf("Recommended Action Type: %u\n", ns_element->ratype);
+
+ offset += sizeof(*ns_element);
+ if (num_lba_desc != 0xffffffff) {
+ for (int i = 0; i < num_lba_desc; i++) {
+ range_desc = lba_status + offset;
+ printf("RSLBA[%d]: %"PRIu64"\n", i,
+ le64_to_cpu(range_desc->rslba));
+ printf("RNLB[%d]: %"PRIu32"\n", i,
+ le32_to_cpu(range_desc->rnlb));
+ offset += sizeof(*range_desc);
+ }
+ } else {
+ printf("Number of LBA Range Descriptors (NLRD) set to %#x for "\
+ "NS element %d\n", num_lba_desc, ele);
+ }
+ }
+}
+
+static void stdout_resv_notif_log(struct nvme_resv_notification_log *resv,
+ const char *devname)
+{
+ printf("Reservation Notif Log for device: %s\n", devname);
+ printf("Log Page Count : %"PRIx64"\n",
+ le64_to_cpu(resv->lpc));
+ printf("Resv Notif Log Page Type : %u (%s)\n",
+ resv->rnlpt,
+ nvme_resv_notif_to_string(resv->rnlpt));
+ printf("Num of Available Log Pages : %u\n", resv->nalp);
+ printf("Namespace ID: : %"PRIx32"\n",
+ le32_to_cpu(resv->nsid));
+}
+
+static void stdout_fid_support_effects_log_human(__u32 fid_support)
+{
+ const char *set = "+";
+ const char *clr = "-";
+ __u16 fsp;
+
+ printf(" FSUPP+");
+ printf(" UDCC%s", (fid_support & NVME_FID_SUPPORTED_EFFECTS_UDCC) ? set : clr);
+ printf(" NCC%s", (fid_support & NVME_FID_SUPPORTED_EFFECTS_NCC) ? set : clr);
+ printf(" NIC%s", (fid_support & NVME_FID_SUPPORTED_EFFECTS_NIC) ? set : clr);
+ printf(" CCC%s", (fid_support & NVME_FID_SUPPORTED_EFFECTS_CCC) ? set : clr);
+ printf(" USS%s", (fid_support & NVME_FID_SUPPORTED_EFFECTS_UUID_SEL) ? set : clr);
+
+ fsp = (fid_support >> NVME_FID_SUPPORTED_EFFECTS_SCOPE_SHIFT) & NVME_FID_SUPPORTED_EFFECTS_SCOPE_MASK;
+
+ printf(" NAMESPACE SCOPE%s", (fsp & NVME_FID_SUPPORTED_EFFECTS_SCOPE_NS) ? set : clr);
+ printf(" CONTROLLER SCOPE%s", (fsp & NVME_FID_SUPPORTED_EFFECTS_SCOPE_CTRL) ? set : clr);
+ printf(" NVM SET SCOPE%s", (fsp & NVME_FID_SUPPORTED_EFFECTS_SCOPE_NVM_SET) ? set : clr);
+ printf(" ENDURANCE GROUP SCOPE%s", (fsp & NVME_FID_SUPPORTED_EFFECTS_SCOPE_ENDGRP) ? set : clr);
+ printf(" DOMAIN SCOPE%s", (fsp & NVME_FID_SUPPORTED_EFFECTS_SCOPE_DOMAIN) ? set : clr);
+ printf(" NVM Subsystem SCOPE%s", (fsp & NVME_FID_SUPPORTED_EFFECTS_SCOPE_NSS) ? set : clr);
+}
+
+static void stdout_fid_support_effects_log(struct nvme_fid_supported_effects_log *fid_log,
+ const char *devname)
+{
+ __u32 fid_effect;
+ int i, human = stdout_print_ops.flags & VERBOSE;
+
+ printf("FID Supports Effects Log for device: %s\n", devname);
+ printf("Admin Command Set\n");
+ for (i = 0; i < 256; i++) {
+ fid_effect = le32_to_cpu(fid_log->fid_support[i]);
+ if (fid_effect & NVME_FID_SUPPORTED_EFFECTS_FSUPP) {
+ printf("FID %02x -> Support Effects Log: %08x", i,
+ fid_effect);
+ if (human)
+ stdout_fid_support_effects_log_human(fid_effect);
+ else
+ printf("\n");
+ }
+ }
+}
+
+static void stdout_mi_cmd_support_effects_log_human(__u32 mi_cmd_support)
+{
+ const char *set = "+";
+ const char *clr = "-";
+ __u16 csp;
+
+ printf(" CSUPP+");
+ printf(" UDCC%s", (mi_cmd_support & NVME_MI_CMD_SUPPORTED_EFFECTS_UDCC) ? set : clr);
+ printf(" NCC%s", (mi_cmd_support & NVME_MI_CMD_SUPPORTED_EFFECTS_NCC) ? set : clr);
+ printf(" NIC%s", (mi_cmd_support & NVME_MI_CMD_SUPPORTED_EFFECTS_NIC) ? set : clr);
+ printf(" CCC%s", (mi_cmd_support & NVME_MI_CMD_SUPPORTED_EFFECTS_CCC) ? set : clr);
+
+ csp = (mi_cmd_support >> NVME_MI_CMD_SUPPORTED_EFFECTS_SCOPE_SHIFT) & NVME_MI_CMD_SUPPORTED_EFFECTS_SCOPE_MASK;
+
+ printf(" NAMESPACE SCOPE%s", (csp & NVME_MI_CMD_SUPPORTED_EFFECTS_SCOPE_NS) ? set : clr);
+ printf(" CONTROLLER SCOPE%s", (csp & NVME_MI_CMD_SUPPORTED_EFFECTS_SCOPE_CTRL) ? set : clr);
+ printf(" NVM SET SCOPE%s", (csp & NVME_MI_CMD_SUPPORTED_EFFECTS_SCOPE_NVM_SET) ? set : clr);
+ printf(" ENDURANCE GROUP SCOPE%s", (csp & NVME_MI_CMD_SUPPORTED_EFFECTS_SCOPE_ENDGRP) ? set : clr);
+ printf(" DOMAIN SCOPE%s", (csp & NVME_MI_CMD_SUPPORTED_EFFECTS_SCOPE_DOMAIN) ? set : clr);
+ printf(" NVM Subsystem SCOPE%s", (csp & NVME_MI_CMD_SUPPORTED_EFFECTS_SCOPE_NSS) ? set : clr);
+}
+
+static void stdout_mi_cmd_support_effects_log(struct nvme_mi_cmd_supported_effects_log *mi_cmd_log,
+ const char *devname)
+{
+ __u32 mi_cmd_effect;
+ int i, human = stdout_print_ops.flags & VERBOSE;
+
+ printf("MI Commands Support Effects Log for device: %s\n", devname);
+ printf("Admin Command Set\n");
+ for (i = 0; i < NVME_LOG_MI_CMD_SUPPORTED_EFFECTS_MAX; i++) {
+ mi_cmd_effect = le32_to_cpu(mi_cmd_log->mi_cmd_support[i]);
+ if (mi_cmd_effect & NVME_MI_CMD_SUPPORTED_EFFECTS_CSUPP) {
+ printf("MI CMD %02x -> Support Effects Log: %08x", i,
+ mi_cmd_effect);
+ if (human)
+ stdout_mi_cmd_support_effects_log_human(mi_cmd_effect);
+ else
+ printf("\n");
+ }
+ }
+}
+
+static void stdout_boot_part_log(void *bp_log, const char *devname,
+ __u32 size)
+{
+ struct nvme_boot_partition *hdr;
+
+ hdr = bp_log;
+ printf("Boot Partition Log for device: %s\n", devname);
+ printf("Log ID: %u\n", hdr->lid);
+ printf("Boot Partition Size: %u KiB\n", le32_to_cpu(hdr->bpinfo) & 0x7fff);
+ printf("Active BPID: %u\n", (le32_to_cpu(hdr->bpinfo) >> 31) & 0x1);
+}
+
+static const char *eomip_to_string(__u8 eomip)
+{
+ const char *string;
+ switch (eomip) {
+ case NVME_PHY_RX_EOM_NOT_STARTED:
+ string = "Not Started";
+ break;
+ case NVME_PHY_RX_EOM_IN_PROGRESS:
+ string = "In Progress";
+ break;
+ case NVME_PHY_RX_EOM_COMPLETED:
+ string = "Completed";
+ break;
+ default:
+ string = "Unknown";
+ break;
+ }
+ return string;
+}
+
+static void stdout_phy_rx_eom_odp(uint8_t odp)
+{
+ __u8 rsvd = (odp >> 2) & 0x3F;
+ __u8 edfp = (odp >> 1) & 0x1;
+ __u8 pefp = odp & 0x1;
+
+ if (rsvd)
+ printf(" [7:2] : %#x\tReserved\n", rsvd);
+ printf(" [1:1] : %#x\tEye Data Field %sPresent\n",
+ edfp, edfp ? "" : "Not ");
+ printf(" [0:0] : %#x\tPrintable Eye Field %sPresent\n",
+ pefp, pefp ? "" : "Not ");
+}
+
+static void stdout_eom_printable_eye(struct nvme_eom_lane_desc *lane)
+{
+ char *eye = (char *)lane->eye_desc;
+ int i, j;
+ for (i = 0; i < lane->nrows; i++) {
+ for (j = 0; j < lane->ncols; j++)
+ printf("%c", eye[i * lane->ncols + j]);
+ printf("\n");
+ }
+}
+
+static void stdout_phy_rx_eom_descs(struct nvme_phy_rx_eom_log *log)
+{
+ void *p = log->descs;
+ int i;
+
+ for (i = 0; i < log->nd; i++) {
+ struct nvme_eom_lane_desc *desc = p;
+
+ printf("Measurement Status: %s\n",
+ desc->mstatus ? "Successful" : "Not Successful");
+ printf("Lane: %u\n", desc->lane);
+ printf("Eye: %u\n", desc->eye);
+ printf("Top: %u\n", le16_to_cpu(desc->top));
+ printf("Bottom: %u\n", le16_to_cpu(desc->bottom));
+ printf("Left: %u\n", le16_to_cpu(desc->left));
+ printf("Right: %u\n", le16_to_cpu(desc->right));
+ printf("Number of Rows: %u\n", le16_to_cpu(desc->nrows));
+ printf("Number of Columns: %u\n", le16_to_cpu(desc->ncols));
+ printf("Eye Data Length: %u\n", le16_to_cpu(desc->edlen));
+
+ if (log->odp & NVME_EOM_PRINTABLE_EYE_PRESENT)
+ stdout_eom_printable_eye(desc);
+
+ /* Eye Data field is vendor specific */
+
+ p += log->dsize;
+ }
+}
+
+static void stdout_phy_rx_eom_log(struct nvme_phy_rx_eom_log *log, __u16 controller)
+{
+ int human = stdout_print_ops.flags & VERBOSE;
+
+ printf("Physical Interface Receiver Eye Opening Measurement Log for controller ID: %u\n", controller);
+ printf("Log ID: %u\n", log->lid);
+ printf("EOM In Progress: %s\n", eomip_to_string(log->eomip));
+ printf("Header Size: %u\n", le16_to_cpu(log->hsize));
+ printf("Result Size: %u\n", le32_to_cpu(log->rsize));
+ printf("EOM Data Generation Number: %u\n", log->eomdgn);
+ printf("Log Revision: %u\n", log->lr);
+ printf("Optional Data Present: %u\n", log->odp);
+ if (human)
+ stdout_phy_rx_eom_odp(log->odp);
+ printf("Lanes: %u\n", log->lanes);
+ printf("Eyes Per Lane: %u\n", log->epl);
+ printf("Log Specific Parameter Field Copy: %u\n", log->lspfc);
+ printf("Link Information: %u\n", log->li);
+ printf("Log Specific Identifier Copy: %u\n", le16_to_cpu(log->lsic));
+ printf("Descriptor Size: %u\n", le32_to_cpu(log->dsize));
+ printf("Number of Descriptors: %u\n", le16_to_cpu(log->nd));
+ printf("Maximum Top Bottom: %u\n", le16_to_cpu(log->maxtb));
+ printf("Maximum Left Right: %u\n", le16_to_cpu(log->maxlr));
+ printf("Estimated Time for Good Quality: %u\n", le16_to_cpu(log->etgood));
+ printf("Estimated Time for Better Quality: %u\n", le16_to_cpu(log->etbetter));
+ printf("Estimated Time for Best Quality: %u\n", le16_to_cpu(log->etbest));
+
+ if (log->eomip == NVME_PHY_RX_EOM_COMPLETED) {
+ stdout_phy_rx_eom_descs(log);
+ }
+}
+
+static void stdout_media_unit_stat_log(struct nvme_media_unit_stat_log *mus_log)
+{
+ int i;
+ int nmu = le16_to_cpu(mus_log->nmu);
+
+ printf("Number of Media Unit Status Descriptors: %u\n", nmu);
+ printf("Number of Channels: %u\n", le16_to_cpu(mus_log->cchans));
+ printf("Selected Configuration: %u\n", le16_to_cpu(mus_log->sel_config));
+ for (i = 0; i < nmu; i++) {
+ printf("Media Unit Status Descriptor: %u\n", i);
+ printf("Media Unit Identifier: %u\n",
+ le16_to_cpu(mus_log->mus_desc[i].muid));
+ printf("Domain Identifier: %u\n",
+ le16_to_cpu(mus_log->mus_desc[i].domainid));
+ printf("Endurance Group Identifier: %u\n",
+ le16_to_cpu(mus_log->mus_desc[i].endgid));
+ printf("NVM Set Identifier: %u\n",
+ le16_to_cpu(mus_log->mus_desc[i].nvmsetid));
+ printf("Capacity Adjustment Factor: %u\n",
+ le16_to_cpu(mus_log->mus_desc[i].cap_adj_fctr));
+ printf("Available Spare: %u\n", mus_log->mus_desc[i].avl_spare);
+ printf("Percentage Used: %u\n", mus_log->mus_desc[i].percent_used);
+ printf("Number of Channels: %u\n", mus_log->mus_desc[i].mucs);
+ printf("Channel Identifiers Offset: %u\n", mus_log->mus_desc[i].cio);
+ }
+}
+
+static void stdout_fdp_config_fdpa(uint8_t fdpa)
+{
+ __u8 valid = (fdpa >> 7) & 0x1;
+ __u8 rsvd = (fdpa >> 5) & 0x3;
+ __u8 fdpvwc = (fdpa >> 4) & 0x1;
+ __u8 rgif = fdpa & 0xf;
+
+ printf(" [7:7] : %#x\tFDP Configuration %sValid\n",
+ valid, valid ? "" : "Not ");
+ if (rsvd)
+ printf(" [6:5] : %#x\tReserved\n", rsvd);
+ printf(" [4:4] : %#x\tFDP Volatile Write Cache %sPresent\n",
+ fdpvwc, fdpvwc ? "" : "Not ");
+ printf(" [3:0] : %#x\tReclaim Group Identifier Format\n", rgif);
+}
+
+static void stdout_fdp_configs(struct nvme_fdp_config_log *log, size_t len)
+{
+ void *p = log->configs;
+ int human = stdout_print_ops.flags & VERBOSE;
+ uint16_t n;
+
+ n = le16_to_cpu(log->n) + 1;
+
+ for (int i = 0; i < n; i++) {
+ struct nvme_fdp_config_desc *config = p;
+
+ printf("FDP Attributes: %#x\n", config->fdpa);
+ if (human)
+ stdout_fdp_config_fdpa(config->fdpa);
+
+ printf("Vendor Specific Size: %u\n", config->vss);
+ printf("Number of Reclaim Groups: %"PRIu32"\n", le32_to_cpu(config->nrg));
+ printf("Number of Reclaim Unit Handles: %"PRIu16"\n", le16_to_cpu(config->nruh));
+ printf("Number of Namespaces Supported: %"PRIu32"\n", le32_to_cpu(config->nnss));
+ printf("Reclaim Unit Nominal Size: %"PRIu64"\n", le64_to_cpu(config->runs));
+ printf("Estimated Reclaim Unit Time Limit: %"PRIu32"\n", le32_to_cpu(config->erutl));
+
+ printf("Reclaim Unit Handle List:\n");
+ for (int j = 0; j < le16_to_cpu(config->nruh); j++) {
+ struct nvme_fdp_ruh_desc *ruh = &config->ruhs[j];
+
+ printf(" [%d]: %s\n", j, ruh->ruht == NVME_FDP_RUHT_INITIALLY_ISOLATED ? "Initially Isolated" : "Persistently Isolated");
+ }
+
+ p += config->size;
+ }
+}
+
+static void stdout_fdp_usage(struct nvme_fdp_ruhu_log *log, size_t len)
+{
+ uint16_t nruh = le16_to_cpu(log->nruh);
+
+ for (int i = 0; i < nruh; i++) {
+ struct nvme_fdp_ruhu_desc *ruhu = &log->ruhus[i];
+
+ printf("Reclaim Unit Handle %d Attributes: 0x%"PRIx8" (%s)\n", i, ruhu->ruha,
+ ruhu->ruha == 0x0 ? "Unused" : (
+ ruhu->ruha == 0x1 ? "Host Specified" : (
+ ruhu->ruha == 0x2 ? "Controller Specified" : "Unknown")));
+ }
+}
+
+static void stdout_fdp_stats(struct nvme_fdp_stats_log *log)
+{
+ printf("Host Bytes with Metadata Written (HBMW): %s\n",
+ uint128_t_to_l10n_string(le128_to_cpu(log->hbmw)));
+ printf("Media Bytes with Metadata Written (MBMW): %s\n",
+ uint128_t_to_l10n_string(le128_to_cpu(log->mbmw)));
+ printf("Media Bytes Erased (MBE): %s\n",
+ uint128_t_to_l10n_string(le128_to_cpu(log->mbe)));
+}
+
+static void stdout_fdp_events(struct nvme_fdp_events_log *log)
+{
+ struct tm *tm;
+ char buffer[320];
+ time_t ts;
+ uint32_t n = le32_to_cpu(log->n);
+
+ for (unsigned int i = 0; i < n; i++) {
+ struct nvme_fdp_event *event = &log->events[i];
+
+ ts = int48_to_long(event->ts.timestamp) / 1000;
+ tm = localtime(&ts);
+
+ printf("Event[%u]\n", i);
+ printf(" Event Type: 0x%"PRIx8" (%s)\n", event->type, nvme_fdp_event_to_string(event->type));
+ printf(" Event Timestamp: %"PRIu64" (%s)\n", int48_to_long(event->ts.timestamp),
+ strftime(buffer, sizeof(buffer), "%c %Z", tm) ? buffer : "-");
+
+ if (event->flags & NVME_FDP_EVENT_F_PIV)
+ printf(" Placement Identifier (PID): 0x%"PRIx16"\n", le16_to_cpu(event->pid));
+
+ if (event->flags & NVME_FDP_EVENT_F_NSIDV)
+ printf(" Namespace Identifier (NSID): %"PRIu32"\n", le32_to_cpu(event->nsid));
+
+ if (event->type == NVME_FDP_EVENT_REALLOC) {
+ struct nvme_fdp_event_realloc *mr;
+ mr = (struct nvme_fdp_event_realloc *)&event->type_specific;
+
+ printf(" Number of LBAs Moved (NLBAM): %"PRIu16"\n", le16_to_cpu(mr->nlbam));
+
+ if (mr->flags & NVME_FDP_EVENT_REALLOC_F_LBAV) {
+ printf(" Logical Block Address (LBA): 0x%"PRIx64"\n", le64_to_cpu(mr->lba));
+ }
+ }
+
+ if (event->flags & NVME_FDP_EVENT_F_LV) {
+ printf(" Reclaim Group Identifier: %"PRIu16"\n", le16_to_cpu(event->rgid));
+ printf(" Reclaim Unit Handle Identifier %"PRIu8"\n", event->ruhid);
+ }
+
+ printf("\n");
+ }
+}
+
+static void stdout_fdp_ruh_status(struct nvme_fdp_ruh_status *status, size_t len)
+{
+ uint16_t nruhsd = le16_to_cpu(status->nruhsd);
+
+ for (unsigned int i = 0; i < nruhsd; i++) {
+ struct nvme_fdp_ruh_status_desc *ruhs = &status->ruhss[i];
+
+ printf("Placement Identifier %"PRIu16"; Reclaim Unit Handle Identifier %"PRIu16"\n",
+ le16_to_cpu(ruhs->pid), le16_to_cpu(ruhs->ruhid));
+ printf(" Estimated Active Reclaim Unit Time Remaining (EARUTR): %"PRIu32"\n",
+ le32_to_cpu(ruhs->earutr));
+ printf(" Reclaim Unit Available Media Writes (RUAMW): %"PRIu64"\n",
+ le64_to_cpu(ruhs->ruamw));
+
+ printf("\n");
+ }
+}
+
+static void stdout_supported_cap_config_log(struct nvme_supported_cap_config_list_log *cap)
+{
+ struct nvme_end_grp_chan_desc *chan_desc;
+ int i, j, k, l, m, sccn, egcn, egsets, egchans, chmus;
+
+ sccn = cap->sccn;
+ printf("Number of Supported Capacity Configurations: %u\n", sccn);
+ for (i = 0; i < sccn; i++) {
+ printf("Capacity Configuration Descriptor: %u\n", i);
+ printf("Capacity Configuration Identifier: %u\n",
+ le16_to_cpu(cap->cap_config_desc[i].cap_config_id));
+ printf("Domain Identifier: %u\n",
+ le16_to_cpu(cap->cap_config_desc[i].domainid));
+ egcn = le16_to_cpu(cap->cap_config_desc[i].egcn);
+ printf("Number of Endurance Group Configuration Descriptors: %u\n", egcn);
+ for(j = 0; j < egcn; j++) {
+ printf("Endurance Group Identifier: %u\n",
+ le16_to_cpu(cap->cap_config_desc[i].egcd[j].endgid));
+ printf("Capacity Adjustment Factor: %u\n",
+ le16_to_cpu(cap->cap_config_desc[i].egcd[j].cap_adj_factor));
+ printf("Total Endurance Group Capacity: %s\n",
+ uint128_t_to_l10n_string(le128_to_cpu(
+ cap->cap_config_desc[i].egcd[j].tegcap)));
+ printf("Spare Endurance Group Capacity: %s\n",
+ uint128_t_to_l10n_string(le128_to_cpu(
+ cap->cap_config_desc[i].egcd[j].segcap)));
+ printf("Endurance Estimate: %s\n",
+ uint128_t_to_l10n_string(le128_to_cpu(
+ cap->cap_config_desc[i].egcd[j].end_est)));
+ egsets = le16_to_cpu(cap->cap_config_desc[i].egcd[j].egsets);
+ printf("Number of NVM Sets: %u\n", egsets);
+ for(k = 0; k < egsets; k++) {
+ printf("NVM Set %d Identifier: %u\n", i,
+ le16_to_cpu(cap->cap_config_desc[i].egcd[j].nvmsetid[k]));
+ }
+ chan_desc = (struct nvme_end_grp_chan_desc *) \
+ ((cap->cap_config_desc[i].egcd[j].nvmsetid[0]) * (sizeof(__u16)*egsets));
+ egchans = le16_to_cpu(chan_desc->egchans);
+ printf("Number of Channels: %u\n", egchans);
+ for(l = 0; l < egchans; l++) {
+ printf("Channel Identifier: %u\n",
+ le16_to_cpu(chan_desc->chan_config_desc[l].chanid));
+ chmus = le16_to_cpu(chan_desc->chan_config_desc[l].chmus);
+ printf("Number of Channel Media Units: %u\n", chmus);
+ for(m = 0; m < chmus; m++) {
+ printf("Media Unit Identifier: %u\n",
+ le16_to_cpu(chan_desc->chan_config_desc[l].mu_config_desc[m].muid));
+ printf("Media Unit Descriptor Length: %u\n",
+ le16_to_cpu(chan_desc->chan_config_desc[l].mu_config_desc[m].mudl));
+ }
+ }
+ }
+ }
+}
+
+static unsigned int stdout_subsystem_multipath(nvme_subsystem_t s)
+{
+ nvme_ns_t n;
+ nvme_path_t p;
+ unsigned int i = 0;
+
+ n = nvme_subsystem_first_ns(s);
+ if (!n)
+ return 0;
+
+ nvme_namespace_for_each_path(n, p) {
+ nvme_ctrl_t c = nvme_path_get_ctrl(p);
+ const char *ana_state = ana_state = nvme_path_get_ana_state(p);
+
+ printf(" +- %s %s %s %s %s\n",
+ nvme_ctrl_get_name(c),
+ nvme_ctrl_get_transport(c),
+ nvme_ctrl_get_address(c),
+ nvme_ctrl_get_state(c),
+ ana_state);
+ i++;
+ }
+
+ return i;
+}
+
+static void stdout_subsystem_ctrls(nvme_subsystem_t s)
+{
+ nvme_ctrl_t c;
+
+ nvme_subsystem_for_each_ctrl(s, c) {
+ printf(" +- %s %s %s %s\n",
+ nvme_ctrl_get_name(c),
+ nvme_ctrl_get_transport(c),
+ nvme_ctrl_get_address(c),
+ nvme_ctrl_get_state(c));
+ }
+}
+
+static void stdout_subsystem(nvme_root_t r, bool show_ana)
+{
+ nvme_host_t h;
+ bool first = true;
+
+ nvme_for_each_host(r, h) {
+ nvme_subsystem_t s;
+
+ nvme_for_each_subsystem(h, s) {
+ int len = strlen(nvme_subsystem_get_name(s));
+
+ if (!first)
+ printf("\n");
+ first = false;
+
+ printf("%s - NQN=%s\n", nvme_subsystem_get_name(s),
+ nvme_subsystem_get_nqn(s));
+ printf("%*s hostnqn=%s\n", len, " ",
+ nvme_host_get_hostnqn(nvme_subsystem_get_host(s)));
+ printf("%*s iopolicy=%s\n", len, " ",
+ nvme_subsystem_get_iopolicy(s));
+ printf("\\\n");
+
+ if (!show_ana || !stdout_subsystem_multipath(s))
+ stdout_subsystem_ctrls(s);
+ }
+ }
+}
+
+static void stdout_subsystem_list(nvme_root_t r, bool show_ana)
+{
+ stdout_subsystem(r, show_ana);
+}
+
+static void stdout_registers_cap(struct nvme_bar_cap *cap)
+{
+ printf("\tController Ready With Media Support (CRWMS): %s\n",
+ cap->crwms ? "Supported" : "Not Supported");
+ printf("\tController Ready Independent of Media Support (CRIMS): %s\n",
+ cap->crims ? "Supported" : "Not Supported");
+ printf("\tNVM Subsystem Shutdown Supported (NSSS): %s\n", cap->nsss ? "Supported" : "Not Supported");
+ printf("\tController Memory Buffer Supported (CMBS): The Controller Memory Buffer is %s\n",
+ cap->cmbs ? "Supported" : "Not Supported");
+ printf("\tPersistent Memory Region Supported (PMRS): The Persistent Memory Region is %s\n",
+ cap->pmrs ? "Supported" : "Not Supported");
+ printf("\tMemory Page Size Maximum (MPSMAX): %u bytes\n", 1 << (12 + cap->mpsmax));
+ printf("\tMemory Page Size Minimum (MPSMIN): %u bytes\n", 1 << (12 + cap->mpsmin));
+ printf("\tController Power Scope (CPS): %s\n",
+ !cap->cps ? "Not Reported" : cap->cps == 1 ? "Controller scope" :
+ cap->cps == 2 ? "Domain scope" : "NVM subsystem scope");
+ printf("\tBoot Partition Support (BPS): %s\n", cap->bps ? "Yes" : "No");
+ printf("\tCommand Sets Supported (CSS): NVM command set is %s\n",
+ cap->css & 0x01 ? "Supported" : "Not Supported");
+ printf("\t One or more I/O Command Sets are %s\n",
+ cap->css & 0x40 ? "Supported" : "Not Supported");
+ printf("\t %s\n",
+ cap->css & 0x80 ? "Only Admin Command Set Supported" : "I/O Command Set is Supported");
+ printf("\tNVM Subsystem Reset Supported (NSSRS): %s\n", cap->nssrs ? "Yes" : "No");
+ printf("\tDoorbell Stride (DSTRD): %u bytes\n", 1 << (2 + cap->dstrd));
+ printf("\tTimeout (TO): %u ms\n", cap->to * 500);
+ printf("\tArbitration Mechanism Supported (AMS): Weighted Round Robin with Urgent Priority Class is %s\n",
+ cap->ams & 0x02 ? "Supported" : "Not supported");
+ printf("\tContiguous Queues Required (CQR): %s\n", cap->cqr ? "Yes" : "No");
+ printf("\tMaximum Queue Entries Supported (MQES): %u\n\n", cap->mqes + 1);
+}
+
+static void stdout_registers_version(__u32 vs)
+{
+ printf("\tNVMe specification %d.%d\n\n", (vs & 0xffff0000) >> 16,
+ (vs & 0x0000ff00) >> 8);
+}
+
+static void stdout_registers_cc_ams (__u8 ams)
+{
+ printf("\tArbitration Mechanism Selected (AMS): ");
+ switch (ams) {
+ case 0:
+ printf("Round Robin\n");
+ break;
+ case 1:
+ printf("Weighted Round Robin with Urgent Priority Class\n");
+ break;
+ case 7:
+ printf("Vendor Specific\n");
+ break;
+ default:
+ printf("Reserved\n");
+ break;
+ }
+}
+
+static void stdout_registers_cc_shn (__u8 shn)
+{
+ printf("\tShutdown Notification (SHN): ");
+ switch (shn) {
+ case 0:
+ printf("No notification; no effect\n");
+ break;
+ case 1:
+ printf("Normal shutdown notification\n");
+ break;
+ case 2:
+ printf("Abrupt shutdown notification\n");
+ break;
+ default:
+ printf("Reserved\n");
+ break;
+ }
+}
+
+static void stdout_registers_cc(__u32 cc)
+{
+ printf("\tController Ready Independent of Media Enable (CRIME): %s\n",
+ NVME_CC_CRIME(cc) ? "Enabled" : "Disabled");
+
+ printf("\tI/O Completion Queue Entry Size (IOCQES): %u bytes\n",
+ 1 << ((cc & 0x00f00000) >> NVME_CC_IOCQES_SHIFT));
+ printf("\tI/O Submission Queue Entry Size (IOSQES): %u bytes\n",
+ 1 << ((cc & 0x000f0000) >> NVME_CC_IOSQES_SHIFT));
+ stdout_registers_cc_shn((cc & 0x0000c000) >> NVME_CC_SHN_SHIFT);
+ stdout_registers_cc_ams((cc & 0x00003800) >> NVME_CC_AMS_SHIFT);
+ printf("\tMemory Page Size (MPS): %u bytes\n",
+ 1 << (12 + ((cc & 0x00000780) >> NVME_CC_MPS_SHIFT)));
+ printf("\tI/O Command Set Selected (CSS): %s\n",
+ (cc & 0x00000070) == 0x00 ? "NVM Command Set" :
+ (cc & 0x00000070) == 0x60 ? "All supported I/O Command Sets" :
+ (cc & 0x00000070) == 0x70 ? "Admin Command Set only" : "Reserved");
+ printf("\tEnable (EN): %s\n\n",
+ (cc & 0x00000001) ? "Yes" : "No");
+}
+
+static void stdout_registers_csts_shst(__u8 shst)
+{
+ printf("\tShutdown Status (SHST): ");
+ switch (shst) {
+ case 0:
+ printf("Normal operation (no shutdown has been requested)\n");
+ break;
+ case 1:
+ printf("Shutdown processing occurring\n");
+ break;
+ case 2:
+ printf("Shutdown processing complete\n");
+ break;
+ default:
+ printf("Reserved\n");
+ break;
+ }
+}
+
+static void stdout_registers_csts(__u32 csts)
+{
+ printf("\tProcessing Paused (PP): %s\n",
+ (csts & 0x00000020) ? "Yes" : "No");
+ printf("\tNVM Subsystem Reset Occurred (NSSRO): %s\n",
+ (csts & 0x00000010) ? "Yes" : "No");
+ stdout_registers_csts_shst((csts & 0x0000000c) >> 2);
+ printf("\tController Fatal Status (CFS): %s\n",
+ (csts & 0x00000002) ? "True" : "False");
+ printf("\tReady (RDY): %s\n\n",
+ (csts & 0x00000001) ? "Yes" : "No");
+
+}
+
+static void stdout_registers_crto(__u32 crto)
+{
+ printf("\tCRIMT : %d secs\n", NVME_CRTO_CRIMT(crto) / 2);
+ printf("\tCRWMT : %d secs\n", NVME_CRTO_CRWMT(crto) / 2);
+}
+
+static void stdout_registers_aqa(__u32 aqa)
+{
+ printf("\tAdmin Completion Queue Size (ACQS): %u\n",
+ ((aqa & 0x0fff0000) >> 16) + 1);
+ printf("\tAdmin Submission Queue Size (ASQS): %u\n\n",
+ (aqa & 0x00000fff) + 1);
+
+}
+
+static void stdout_registers_cmbloc(__u32 cmbloc, __u32 cmbsz)
+{
+ static const char *enforced[] = { "Enforced", "Not Enforced" };
+
+ if (cmbsz == 0) {
+ printf("\tController Memory Buffer feature is not supported\n\n");
+ return;
+ }
+ printf("\tOffset (OFST): 0x%x (See cmbsz.szu for granularity)\n",
+ (cmbloc & 0xfffff000) >> 12);
+
+ printf("\tCMB Queue Dword Alignment (CQDA): %d\n",
+ (cmbloc & 0x00000100) >> 8);
+
+ printf("\tCMB Data Metadata Mixed Memory Support (CDMMMS): %s\n",
+ enforced[(cmbloc & 0x00000080) >> 7]);
+
+ printf("\tCMB Data Pointer and Command Independent Locations Support (CDPCILS): %s\n",
+ enforced[(cmbloc & 0x00000040) >> 6]);
+
+ printf("\tCMB Data Pointer Mixed Locations Support (CDPMLS): %s\n",
+ enforced[(cmbloc & 0x00000020) >> 5]);
+
+ printf("\tCMB Queue Physically Discontiguous Support (CQPDS): %s\n",
+ enforced[(cmbloc & 0x00000010) >> 4]);
+
+ printf("\tCMB Queue Mixed Memory Support (CQMMS): %s\n",
+ enforced[(cmbloc & 0x00000008) >> 3]);
+
+ printf("\tBase Indicator Register (BIR): 0x%x\n\n",
+ (cmbloc & 0x00000007));
+}
+
+static void stdout_registers_cmbsz(__u32 cmbsz)
+{
+ if (cmbsz == 0) {
+ printf("\tController Memory Buffer feature is not supported\n\n");
+ return;
+ }
+ printf("\tSize (SZ): %u\n", (cmbsz & 0xfffff000) >> 12);
+ printf("\tSize Units (SZU): %s\n",
+ nvme_register_szu_to_string((cmbsz & 0x00000f00) >> 8));
+ printf("\tWrite Data Support (WDS): Write Data and metadata transfer in Controller Memory Buffer is %s\n",
+ (cmbsz & 0x00000010) ? "Supported" : "Not supported");
+ printf("\tRead Data Support (RDS): Read Data and metadata transfer in Controller Memory Buffer is %s\n",
+ (cmbsz & 0x00000008) ? "Supported" : "Not supported");
+ printf("\tPRP SGL List Support (LISTS): PRP/SG Lists in Controller Memory Buffer is %s\n",
+ (cmbsz & 0x00000004) ? "Supported" : "Not supported");
+ printf("\tCompletion Queue Support (CQS): Admin and I/O Completion Queues in Controller Memory Buffer is %s\n",
+ (cmbsz & 0x00000002) ? "Supported" : "Not supported");
+ printf("\tSubmission Queue Support (SQS): Admin and I/O Submission Queues in Controller Memory Buffer is %s\n\n",
+ (cmbsz & 0x00000001) ? "Supported" : "Not supported");
+}
+
+static void stdout_registers_bpinfo_brs(__u8 brs)
+{
+ printf("\tBoot Read Status (BRS): ");
+ switch (brs) {
+ case 0:
+ printf("No Boot Partition read operation requested\n");
+ break;
+ case 1:
+ printf("Boot Partition read in progress\n");
+ break;
+ case 2:
+ printf("Boot Partition read completed successfully\n");
+ break;
+ case 3:
+ printf("Error completing Boot Partition read\n");
+ break;
+ default:
+ printf("Invalid\n");
+ break;
+ }
+}
+
+static void stdout_registers_bpinfo(__u32 bpinfo)
+{
+ printf("\tActive Boot Partition ID (ABPID): %u\n",
+ (bpinfo & 0x80000000) >> 31);
+ stdout_registers_bpinfo_brs((bpinfo & 0x03000000) >> 24);
+ printf("\tBoot Partition Size (BPSZ): %u\n",
+ bpinfo & 0x00007fff);
+}
+
+static void stdout_registers_bprsel(__u32 bprsel)
+{
+ printf("\tBoot Partition Identifier (BPID): %u\n",
+ (bprsel & 0x80000000) >> 31);
+ printf("\tBoot Partition Read Offset (BPROF): %x\n",
+ (bprsel & 0x3ffffc00) >> 10);
+ printf("\tBoot Partition Read Size (BPRSZ): %x\n",
+ bprsel & 0x000003ff);
+}
+
+static void stdout_registers_bpmbl(uint64_t bpmbl)
+{
+ printf("\tBoot Partition Memory Buffer Base Address (BMBBA): %"PRIx64"\n",
+ bpmbl);
+}
+
+static void stdout_registers_cmbmsc(uint64_t cmbmsc)
+{
+ printf("\tController Base Address (CBA): %" PRIx64 "\n",
+ (cmbmsc & 0xfffffffffffff000) >> 12);
+ printf("\tController Memory Space Enable (CMSE): %" PRIx64 "\n",
+ (cmbmsc & 0x0000000000000002) >> 1);
+ printf("\tCapabilities Registers Enabled (CRE): CMBLOC and "\
+ "CMBSZ registers are%senabled\n\n",
+ (cmbmsc & 0x0000000000000001) ? " " : " NOT ");
+}
+
+static void stdout_registers_cmbsts(__u32 cmbsts)
+{
+ printf("\tController Base Address Invalid (CBAI): %x\n\n",
+ (cmbsts & 0x00000001));
+}
+
+static void stdout_registers_pmrcap(__u32 pmrcap)
+{
+ printf("\tController Memory Space Supported (CMSS): "\
+ "Referencing PMR with host supplied addresses is %s\n",
+ ((pmrcap & 0x01000000) >> 24) ? "Supported" : "Not Supported");
+ printf("\tPersistent Memory Region Timeout (PMRTO): %x\n",
+ (pmrcap & 0x00ff0000) >> 16);
+ printf("\tPersistent Memory Region Write Barrier Mechanisms (PMRWBM): %x\n",
+ (pmrcap & 0x00003c00) >> 10);
+ printf("\tPersistent Memory Region Time Units (PMRTU): PMR time unit is %s\n",
+ (pmrcap & 0x00000300) >> 8 ? "minutes" : "500 milliseconds");
+ printf("\tBase Indicator Register (BIR): %x\n",
+ (pmrcap & 0x000000e0) >> 5);
+ printf("\tWrite Data Support (WDS): Write data to the PMR is %s\n",
+ (pmrcap & 0x00000010) ? "supported" : "not supported");
+ printf("\tRead Data Support (RDS): Read data from the PMR is %s\n",
+ (pmrcap & 0x00000008) ? "supported" : "not supported");
+}
+
+static void stdout_registers_pmrctl(__u32 pmrctl)
+{
+ printf("\tEnable (EN): PMR is %s\n", (pmrctl & 0x00000001) ?
+ "READY" : "Disabled");
+}
+
+static void stdout_registers_pmrsts(__u32 pmrsts, __u32 pmrctl)
+{
+ printf("\tController Base Address Invalid (CBAI): %x\n",
+ (pmrsts & 0x00001000) >> 12);
+ printf("\tHealth Status (HSTS): %s\n",
+ nvme_register_pmr_hsts_to_string((pmrsts & 0x00000e00) >> 9));
+ printf("\tNot Ready (NRDY): "\
+ "The Persistent Memory Region is %s to process "\
+ "PCI Express memory read and write requests\n",
+ (pmrsts & 0x00000100) == 0 && (pmrctl & 0x00000001) ?
+ "READY" : "Not Ready");
+ printf("\tError (ERR): %x\n", (pmrsts & 0x000000ff));
+}
+
+static void stdout_registers_pmrebs(__u32 pmrebs)
+{
+ printf("\tPMR Elasticity Buffer Size Base (PMRWBZ): %x\n", (pmrebs & 0xffffff00) >> 8);
+ printf("\tRead Bypass Behavior : memory reads not conflicting with memory writes "\
+ "in the PMR Elasticity Buffer %s bypass those memory writes\n",
+ (pmrebs & 0x00000010) ? "SHALL" : "MAY");
+ printf("\tPMR Elasticity Buffer Size Units (PMRSZU): %s\n",
+ nvme_register_pmr_pmrszu_to_string(pmrebs & 0x0000000f));
+}
+
+static void stdout_registers_pmrswtp(__u32 pmrswtp)
+{
+ printf("\tPMR Sustained Write Throughput (PMRSWTV): %x\n",
+ (pmrswtp & 0xffffff00) >> 8);
+ printf("\tPMR Sustained Write Throughput Units (PMRSWTU): %s/second\n",
+ nvme_register_pmr_pmrszu_to_string(pmrswtp & 0x0000000f));
+}
+
+static void stdout_registers_pmrmscl(uint32_t pmrmscl)
+{
+ printf("\tController Base Address (CBA): %#x\n",
+ (pmrmscl & 0xfffff000) >> 12);
+ printf("\tController Memory Space Enable (CMSE): %#x\n\n",
+ (pmrmscl & 0x00000002) >> 1);
+}
+
+static void stdout_registers_pmrmscu(uint32_t pmrmscu)
+{
+ printf("\tController Base Address (CBA): %#x\n",
+ pmrmscu);
+}
+
+void stdout_ctrl_registers(void *bar, bool fabrics)
+{
+ uint64_t cap, asq, acq, bpmbl, cmbmsc;
+ uint32_t vs, intms, intmc, cc, csts, nssr, crto, aqa, cmbsz, cmbloc, bpinfo,
+ bprsel, cmbsts, pmrcap, pmrctl, pmrsts, pmrebs, pmrswtp,
+ pmrmscl, pmrmscu;
+ int human = stdout_print_ops.flags & VERBOSE;
+
+ cap = mmio_read64(bar + NVME_REG_CAP);
+ vs = mmio_read32(bar + NVME_REG_VS);
+ intms = mmio_read32(bar + NVME_REG_INTMS);
+ intmc = mmio_read32(bar + NVME_REG_INTMC);
+ cc = mmio_read32(bar + NVME_REG_CC);
+ csts = mmio_read32(bar + NVME_REG_CSTS);
+ nssr = mmio_read32(bar + NVME_REG_NSSR);
+ crto = mmio_read32(bar + NVME_REG_CRTO);
+ aqa = mmio_read32(bar + NVME_REG_AQA);
+ asq = mmio_read64(bar + NVME_REG_ASQ);
+ acq = mmio_read64(bar + NVME_REG_ACQ);
+ cmbloc = mmio_read32(bar + NVME_REG_CMBLOC);
+ cmbsz = mmio_read32(bar + NVME_REG_CMBSZ);
+ bpinfo = mmio_read32(bar + NVME_REG_BPINFO);
+ bprsel = mmio_read32(bar + NVME_REG_BPRSEL);
+ bpmbl = mmio_read64(bar + NVME_REG_BPMBL);
+ cmbmsc = mmio_read64(bar + NVME_REG_CMBMSC);
+ cmbsts = mmio_read32(bar + NVME_REG_CMBSTS);
+ pmrcap = mmio_read32(bar + NVME_REG_PMRCAP);
+ pmrctl = mmio_read32(bar + NVME_REG_PMRCTL);
+ pmrsts = mmio_read32(bar + NVME_REG_PMRSTS);
+ pmrebs = mmio_read32(bar + NVME_REG_PMREBS);
+ pmrswtp = mmio_read32(bar + NVME_REG_PMRSWTP);
+ pmrmscl = mmio_read32(bar + NVME_REG_PMRMSCL);
+ pmrmscu = mmio_read32(bar + NVME_REG_PMRMSCU);
+
+ if (human) {
+ if (cap != 0xffffffff) {
+ printf("cap : %"PRIx64"\n", cap);
+ stdout_registers_cap((struct nvme_bar_cap *)&cap);
+ }
+ if (vs != 0xffffffff) {
+ printf("version : %x\n", vs);
+ stdout_registers_version(vs);
+ }
+ if (cc != 0xffffffff) {
+ printf("cc : %x\n", cc);
+ stdout_registers_cc(cc);
+ }
+ if (csts != 0xffffffff) {
+ printf("csts : %x\n", csts);
+ stdout_registers_csts(csts);
+ }
+ if (nssr != 0xffffffff) {
+ printf("nssr : %x\n", nssr);
+ printf("\tNVM Subsystem Reset Control (NSSRC): %u\n\n",
+ nssr);
+ }
+ if (crto != 0xffffffff) {
+ printf("crto : %x\n", crto);
+ stdout_registers_crto(crto);
+ }
+ if (!fabrics) {
+ printf("intms : %x\n", intms);
+ printf("\tInterrupt Vector Mask Set (IVMS): %x\n\n",
+ intms);
+
+ printf("intmc : %x\n", intmc);
+ printf("\tInterrupt Vector Mask Clear (IVMC): %x\n\n",
+ intmc);
+ printf("aqa : %x\n", aqa);
+ stdout_registers_aqa(aqa);
+
+ printf("asq : %"PRIx64"\n", asq);
+ printf("\tAdmin Submission Queue Base (ASQB): %"PRIx64"\n\n",
+ asq);
+
+ printf("acq : %"PRIx64"\n", acq);
+ printf("\tAdmin Completion Queue Base (ACQB): %"PRIx64"\n\n",
+ acq);
+
+ printf("cmbloc : %x\n", cmbloc);
+ stdout_registers_cmbloc(cmbloc, cmbsz);
+
+ printf("cmbsz : %x\n", cmbsz);
+ stdout_registers_cmbsz(cmbsz);
+
+ printf("bpinfo : %x\n", bpinfo);
+ stdout_registers_bpinfo(bpinfo);
+
+ printf("bprsel : %x\n", bprsel);
+ stdout_registers_bprsel(bprsel);
+
+ printf("bpmbl : %"PRIx64"\n", bpmbl);
+ stdout_registers_bpmbl(bpmbl);
+
+ printf("cmbmsc : %"PRIx64"\n", cmbmsc);
+ stdout_registers_cmbmsc(cmbmsc);
+
+ printf("cmbsts : %x\n", cmbsts);
+ stdout_registers_cmbsts(cmbsts);
+
+ printf("pmrcap : %x\n", pmrcap);
+ stdout_registers_pmrcap(pmrcap);
+
+ printf("pmrctl : %x\n", pmrctl);
+ stdout_registers_pmrctl(pmrctl);
+
+ printf("pmrsts : %x\n", pmrsts);
+ stdout_registers_pmrsts(pmrsts, pmrctl);
+
+ printf("pmrebs : %x\n", pmrebs);
+ stdout_registers_pmrebs(pmrebs);
+
+ printf("pmrswtp : %x\n", pmrswtp);
+ stdout_registers_pmrswtp(pmrswtp);
+
+ printf("pmrmscl : %#x\n", pmrmscl);
+ stdout_registers_pmrmscl(pmrmscl);
+
+ printf("pmrmscu : %#x\n", pmrmscu);
+ stdout_registers_pmrmscu(pmrmscu);
+ }
+ } else {
+ if (cap != 0xffffffff)
+ printf("cap : %"PRIx64"\n", cap);
+ if (vs != 0xffffffff)
+ printf("version : %x\n", vs);
+ if (cc != 0xffffffff)
+ printf("cc : %x\n", cc);
+ if (csts != 0xffffffff)
+ printf("csts : %x\n", csts);
+ if (nssr != 0xffffffff)
+ printf("nssr : %x\n", nssr);
+ if (crto != 0xffffffff)
+ printf("crto : %x\n", crto);
+ if (!fabrics) {
+ printf("intms : %x\n", intms);
+ printf("intmc : %x\n", intmc);
+ printf("aqa : %x\n", aqa);
+ printf("asq : %"PRIx64"\n", asq);
+ printf("acq : %"PRIx64"\n", acq);
+ printf("cmbloc : %x\n", cmbloc);
+ printf("cmbsz : %x\n", cmbsz);
+ printf("bpinfo : %x\n", bpinfo);
+ printf("bprsel : %x\n", bprsel);
+ printf("bpmbl : %"PRIx64"\n", bpmbl);
+ printf("cmbmsc : %"PRIx64"\n", cmbmsc);
+ printf("cmbsts : %x\n", cmbsts);
+ printf("pmrcap : %x\n", pmrcap);
+ printf("pmrctl : %x\n", pmrctl);
+ printf("pmrsts : %x\n", pmrsts);
+ printf("pmrebs : %x\n", pmrebs);
+ printf("pmrswtp : %x\n", pmrswtp);
+ printf("pmrmscl : %#x\n", pmrmscl);
+ printf("pmrmscu : %#x\n", pmrmscu);
+ }
+ }
+}
+
+static void stdout_single_property(int offset, uint64_t value64)
+{
+ int human = stdout_print_ops.flags & VERBOSE;
+ uint32_t value32 = (uint32_t)value64;
+
+ if (!human) {
+ if (nvme_is_64bit_reg(offset))
+ printf("property: 0x%02x (%s), value: %"PRIx64"\n",
+ offset, nvme_register_to_string(offset), value64);
+ else
+ printf("property: 0x%02x (%s), value: %x\n", offset,
+ nvme_register_to_string(offset), value32);
+ return;
+ }
+
+ switch (offset) {
+ case NVME_REG_CAP:
+ printf("cap : %"PRIx64"\n", value64);
+ stdout_registers_cap((struct nvme_bar_cap *)&value64);
+ break;
+ case NVME_REG_VS:
+ printf("version : %x\n", value32);
+ stdout_registers_version(value32);
+ break;
+ case NVME_REG_CC:
+ printf("cc : %x\n", value32);
+ stdout_registers_cc(value32);
+ break;
+ case NVME_REG_CSTS:
+ printf("csts : %x\n", value32);
+ stdout_registers_csts(value32);
+ break;
+ case NVME_REG_NSSR:
+ printf("nssr : %x\n", value32);
+ printf("\tNVM Subsystem Reset Control (NSSRC): %u\n\n", value32);
+ break;
+ case NVME_REG_CRTO:
+ printf("crto : %x\n", value32);
+ stdout_registers_crto(value32);
+ break;
+ default:
+ printf("unknown property: 0x%02x (%s), value: %"PRIx64"\n",
+ offset, nvme_register_to_string(offset), value64);
+ break;
+ }
+}
+
+static void stdout_status(int status)
+{
+ int val;
+ int type;
+
+ /*
+ * Callers should be checking for negative values first, but provide a
+ * sensible fallback anyway
+ */
+ if (status < 0) {
+ fprintf(stderr, "Error: %s\n", nvme_strerror(errno));
+ return;
+ }
+
+ val = nvme_status_get_value(status);
+ type = nvme_status_get_type(status);
+
+ switch (type) {
+ case NVME_STATUS_TYPE_NVME:
+ fprintf(stderr, "NVMe status: %s(%#x)\n",
+ nvme_status_to_string(val, false), val);
+ break;
+ case NVME_STATUS_TYPE_MI:
+ fprintf(stderr, "NVMe-MI status: %s(%#x)\n",
+ nvme_mi_status_to_string(val), val);
+ break;
+ default:
+ fprintf(stderr, "Unknown status type %d, value %#x\n", type,
+ val);
+ break;
+ }
+}
+
+static void stdout_error_status(int status, const char *msg, va_list ap)
+{
+ vfprintf(stderr, msg, ap);
+ fprintf(stderr, ": ");
+ stdout_status(status);
+}
+
+static void stdout_id_ctrl_cmic(__u8 cmic)
+{
+ __u8 rsvd = (cmic & 0xF0) >> 4;
+ __u8 ana = (cmic & 0x8) >> 3;
+ __u8 sriov = (cmic & 0x4) >> 2;
+ __u8 mctl = (cmic & 0x2) >> 1;
+ __u8 mp = cmic & 0x1;
+
+ if (rsvd)
+ printf(" [7:4] : %#x\tReserved\n", rsvd);
+ printf(" [3:3] : %#x\tANA %ssupported\n", ana, ana ? "" : "not ");
+ printf(" [2:2] : %#x\t%s\n", sriov, sriov ? "SR-IOV" : "PCI");
+ printf(" [1:1] : %#x\t%s Controller\n",
+ mctl, mctl ? "Multi" : "Single");
+ printf(" [0:0] : %#x\t%s Port\n", mp, mp ? "Multi" : "Single");
+ printf("\n");
+}
+
+static void stdout_id_ctrl_oaes(__le32 ctrl_oaes)
+{
+ __u32 oaes = le32_to_cpu(ctrl_oaes);
+ __u32 disc = (oaes >> 31) & 0x1;
+ __u32 rsvd0 = (oaes & 0x70000000) >> 28;
+ __u32 zicn = (oaes & 0x08000000) >> 27;
+ __u32 rsvd1 = (oaes & 0x07FF0000) >> 16;
+ __u32 normal_shn = (oaes >> 15) & 0x1;
+ __u32 egealpcn = (oaes & 0x4000) >> 14;
+ __u32 lbasin = (oaes & 0x2000) >> 13;
+ __u32 plealcn = (oaes & 0x1000) >> 12;
+ __u32 anacn = (oaes & 0x800) >> 11;
+ __u32 rsvd2 = (oaes >> 10) & 0x1;
+ __u32 fan = (oaes & 0x200) >> 9;
+ __u32 nace = (oaes & 0x100) >> 8;
+ __u32 rsvd3 = oaes & 0xFF;
+
+ printf(" [31:31] : %#x\tDiscovery Log Change Notice %sSupported\n",
+ disc, disc ? "" : "Not ");
+ if (rsvd0)
+ printf(" [30:28] : %#x\tReserved\n", rsvd0);
+ printf(" [27:27] : %#x\tZone Descriptor Changed Notices %sSupported\n",
+ zicn, zicn ? "" : "Not ");
+ if (rsvd1)
+ printf(" [26:16] : %#x\tReserved\n", rsvd1);
+ printf(" [15:15] : %#x\tNormal NSS Shutdown Event %sSupported\n",
+ normal_shn, normal_shn ? "" : "Not ");
+ printf(" [14:14] : %#x\tEndurance Group Event Aggregate Log Page"\
+ " Change Notice %sSupported\n",
+ egealpcn, egealpcn ? "" : "Not ");
+ printf(" [13:13] : %#x\tLBA Status Information Notices %sSupported\n",
+ lbasin, lbasin ? "" : "Not ");
+ printf(" [12:12] : %#x\tPredictable Latency Event Aggregate Log Change"\
+ " Notices %sSupported\n",
+ plealcn, plealcn ? "" : "Not ");
+ printf(" [11:11] : %#x\tAsymmetric Namespace Access Change Notices"\
+ " %sSupported\n", anacn, anacn ? "" : "Not ");
+ if (rsvd2)
+ printf(" [10:10] : %#x\tReserved\n", rsvd2);
+ printf(" [9:9] : %#x\tFirmware Activation Notices %sSupported\n",
+ fan, fan ? "" : "Not ");
+ printf(" [8:8] : %#x\tNamespace Attribute Changed Event %sSupported\n",
+ nace, nace ? "" : "Not ");
+ if (rsvd3)
+ printf(" [7:0] : %#x\tReserved\n", rsvd3);
+ printf("\n");
+}
+
+static void stdout_id_ctrl_ctratt(__le32 ctrl_ctratt)
+{
+ __u32 ctratt = le32_to_cpu(ctrl_ctratt);
+ __u32 rsvd20 = (ctratt >> 20);
+ __u32 fdps = (ctratt >> 19) & 0x1;
+ __u32 rsvd16 = (ctratt >> 16) & 0x7;
+ __u32 elbas = (ctratt >> 15) & 0x1;
+ __u32 delnvmset = (ctratt >> 14) & 0x1;
+ __u32 delegrp = (ctratt >> 13) & 0x1;
+ __u32 vcap = (ctratt >> 12) & 0x1;
+ __u32 fcap = (ctratt >> 11) & 0x1;
+ __u32 mds = (ctratt >> 10) & 0x1;
+ __u32 hostid128 = (ctratt & NVME_CTRL_CTRATT_128_ID) >> 0;
+ __u32 psp = (ctratt & NVME_CTRL_CTRATT_NON_OP_PSP) >> 1;
+ __u32 sets = (ctratt & NVME_CTRL_CTRATT_NVM_SETS) >> 2;
+ __u32 rrl = (ctratt & NVME_CTRL_CTRATT_READ_RECV_LVLS) >> 3;
+ __u32 eg = (ctratt & NVME_CTRL_CTRATT_ENDURANCE_GROUPS) >> 4;
+ __u32 iod = (ctratt & NVME_CTRL_CTRATT_PREDICTABLE_LAT) >> 5;
+ __u32 tbkas = (ctratt & NVME_CTRL_CTRATT_TBKAS) >> 6;
+ __u32 ng = (ctratt & NVME_CTRL_CTRATT_NAMESPACE_GRANULARITY) >> 7;
+ __u32 sqa = (ctratt & NVME_CTRL_CTRATT_SQ_ASSOCIATIONS) >> 8;
+ __u32 uuidlist = (ctratt & NVME_CTRL_CTRATT_UUID_LIST) >> 9;
+
+ if (rsvd20)
+ printf(" [31:20] : %#x\tReserved\n", rsvd20);
+ printf(" [19:19] : %#x\tFlexible Data Placement %sSupported\n",
+ fdps, fdps ? "" : "Not ");
+ if (rsvd16)
+ printf(" [18:16] : %#x\tReserved\n", rsvd16);
+ printf(" [15:15] : %#x\tExtended LBA Formats %sSupported\n",
+ elbas, elbas ? "" : "Not ");
+ printf(" [14:14] : %#x\tDelete NVM Set %sSupported\n",
+ delnvmset, delnvmset ? "" : "Not ");
+ printf(" [13:13] : %#x\tDelete Endurance Group %sSupported\n",
+ delegrp, delegrp ? "" : "Not ");
+ printf(" [12:12] : %#x\tVariable Capacity Management %sSupported\n",
+ vcap, vcap ? "" : "Not ");
+ printf(" [11:11] : %#x\tFixed Capacity Management %sSupported\n",
+ fcap, fcap ? "" : "Not ");
+ printf(" [10:10] : %#x\tMulti Domain Subsystem %sSupported\n",
+ mds, mds ? "" : "Not ");
+ printf(" [9:9] : %#x\tUUID List %sSupported\n",
+ uuidlist, uuidlist ? "" : "Not ");
+ printf(" [8:8] : %#x\tSQ Associations %sSupported\n",
+ sqa, sqa ? "" : "Not ");
+ printf(" [7:7] : %#x\tNamespace Granularity %sSupported\n",
+ ng, ng ? "" : "Not ");
+ printf(" [6:6] : %#x\tTraffic Based Keep Alive %sSupported\n",
+ tbkas, tbkas ? "" : "Not ");
+ printf(" [5:5] : %#x\tPredictable Latency Mode %sSupported\n",
+ iod, iod ? "" : "Not ");
+ printf(" [4:4] : %#x\tEndurance Groups %sSupported\n",
+ eg, eg ? "" : "Not ");
+ printf(" [3:3] : %#x\tRead Recovery Levels %sSupported\n",
+ rrl, rrl ? "" : "Not ");
+ printf(" [2:2] : %#x\tNVM Sets %sSupported\n",
+ sets, sets ? "" : "Not ");
+ printf(" [1:1] : %#x\tNon-Operational Power State Permissive %sSupported\n",
+ psp, psp ? "" : "Not ");
+ printf(" [0:0] : %#x\t128-bit Host Identifier %sSupported\n",
+ hostid128, hostid128 ? "" : "Not ");
+ printf("\n");
+}
+
+static void stdout_id_ctrl_cntrltype(__u8 cntrltype)
+{
+ __u8 rsvd = (cntrltype & 0xFC) >> 2;
+ __u8 cntrl = cntrltype & 0x3;
+
+ static const char *type[] = {
+ "Controller type not reported",
+ "I/O Controller",
+ "Discovery Controller",
+ "Administrative Controller"
+ };
+
+ printf(" [7:2] : %#x\tReserved\n", rsvd);
+ printf(" [1:0] : %#x\t%s\n", cntrltype, type[cntrl]);
+}
+
+static void stdout_id_ctrl_nvmsr(__u8 nvmsr)
+{
+ __u8 rsvd = (nvmsr >> 2) & 0xfc;
+ __u8 nvmee = (nvmsr >> 1) & 0x1;
+ __u8 nvmesd = nvmsr & 0x1;
+
+ if (rsvd)
+ printf(" [7:2] : %#x\tReserved\n", rsvd);
+ printf(" [1:1] : %#x\tNVM subsystem %spart of an Enclosure\n",
+ nvmee, nvmee ? "" : "Not ");
+ printf(" [0:0] : %#x\tNVM subsystem %spart of a Storage Device\n",
+ nvmesd, nvmesd ? "" : "Not ");
+ printf("\n");
+}
+
+static void stdout_id_ctrl_vwci(__u8 vwci)
+{
+ __u8 vwcrv = (vwci >> 7) & 0x1;
+ __u8 vwcr = vwci & 0xfe;
+
+ printf(" [7:7] : %#x\tVPD Write Cycles Remaining field is %svalid.\n",
+ vwcrv, vwcrv ? "" : "Not ");
+ printf(" [6:0] : %#x\tVPD Write Cycles Remaining \n", vwcr);
+ printf("\n");
+
+}
+
+static void stdout_id_ctrl_mec(__u8 mec)
+{
+ __u8 rsvd = (mec >> 2) & 0xfc;
+ __u8 pcieme = (mec >> 1) & 0x1;
+ __u8 smbusme = mec & 0x1;
+
+ if (rsvd)
+ printf(" [7:2] : %#x\tReserved\n", rsvd);
+ printf(" [1:1] : %#x\tNVM subsystem %scontains a Management Endpoint"\
+ " on a PCIe port\n", pcieme, pcieme ? "" : "Not ");
+ printf(" [0:0] : %#x\tNVM subsystem %scontains a Management Endpoint"\
+ " on an SMBus/I2C port\n", smbusme, smbusme ? "" : "Not ");
+ printf("\n");
+
+}
+
+static void stdout_id_ctrl_oacs(__le16 ctrl_oacs)
+{
+ __u16 oacs = le16_to_cpu(ctrl_oacs);
+ __u16 rsvd = (oacs & 0xF800) >> 11;
+ __u16 lock = (oacs >> 10) & 0x1;
+ __u16 glbas = (oacs & 0x200) >> 9;
+ __u16 dbc = (oacs & 0x100) >> 8;
+ __u16 vir = (oacs & 0x80) >> 7;
+ __u16 nmi = (oacs & 0x40) >> 6;
+ __u16 dir = (oacs & 0x20) >> 5;
+ __u16 sft = (oacs & 0x10) >> 4;
+ __u16 nsm = (oacs & 0x8) >> 3;
+ __u16 fwc = (oacs & 0x4) >> 2;
+ __u16 fmt = (oacs & 0x2) >> 1;
+ __u16 sec = oacs & 0x1;
+
+ if (rsvd)
+ printf(" [15:11] : %#x\tReserved\n", rsvd);
+ printf(" [10:10] : %#x\tLockdown Command and Feature %sSupported\n",
+ lock, lock ? "" : "Not ");
+ printf(" [9:9] : %#x\tGet LBA Status Capability %sSupported\n",
+ glbas, glbas ? "" : "Not ");
+ printf(" [8:8] : %#x\tDoorbell Buffer Config %sSupported\n",
+ dbc, dbc ? "" : "Not ");
+ printf(" [7:7] : %#x\tVirtualization Management %sSupported\n",
+ vir, vir ? "" : "Not ");
+ printf(" [6:6] : %#x\tNVMe-MI Send and Receive %sSupported\n",
+ nmi, nmi ? "" : "Not ");
+ printf(" [5:5] : %#x\tDirectives %sSupported\n",
+ dir, dir ? "" : "Not ");
+ printf(" [4:4] : %#x\tDevice Self-test %sSupported\n",
+ sft, sft ? "" : "Not ");
+ printf(" [3:3] : %#x\tNS Management and Attachment %sSupported\n",
+ nsm, nsm ? "" : "Not ");
+ printf(" [2:2] : %#x\tFW Commit and Download %sSupported\n",
+ fwc, fwc ? "" : "Not ");
+ printf(" [1:1] : %#x\tFormat NVM %sSupported\n",
+ fmt, fmt ? "" : "Not ");
+ printf(" [0:0] : %#x\tSecurity Send and Receive %sSupported\n",
+ sec, sec ? "" : "Not ");
+ printf("\n");
+}
+
+static void stdout_id_ctrl_frmw(__u8 frmw)
+{
+ __u8 rsvd = (frmw & 0xC0) >> 6;
+ __u8 smud = (frmw >> 5) & 0x1;
+ __u8 fawr = (frmw & 0x10) >> 4;
+ __u8 nfws = (frmw & 0xE) >> 1;
+ __u8 s1ro = frmw & 0x1;
+
+ if (rsvd)
+ printf(" [7:6] : %#x\tReserved\n", rsvd);
+ printf(" [5:5] : %#x\tMultiple FW or Boot Update Detection %sSupported\n",
+ smud, smud ? "" : "Not ");
+ printf(" [4:4] : %#x\tFirmware Activate Without Reset %sSupported\n",
+ fawr, fawr ? "" : "Not ");
+ printf(" [3:1] : %#x\tNumber of Firmware Slots\n", nfws);
+ printf(" [0:0] : %#x\tFirmware Slot 1 Read%s\n",
+ s1ro, s1ro ? "-Only" : "/Write");
+ printf("\n");
+}
+
+static void stdout_id_ctrl_lpa(__u8 lpa)
+{
+ __u8 rsvd = (lpa & 0x80) >> 7;
+ __u8 tel = (lpa >> 6) & 0x1;
+ __u8 lid_sup = (lpa >> 5) & 0x1;
+ __u8 persevnt = (lpa & 0x10) >> 4;
+ __u8 telem = (lpa & 0x8) >> 3;
+ __u8 ed = (lpa & 0x4) >> 2;
+ __u8 celp = (lpa & 0x2) >> 1;
+ __u8 smlp = lpa & 0x1;
+
+ if (rsvd)
+ printf(" [7:7] : %#x\tReserved\n", rsvd);
+ printf(" [6:6] : %#x\tTelemetry Log Data Area 4 %sSupported\n",
+ tel, tel ? "" : "Not ");
+ printf(" [5:5] : %#x\tLID 0x0, Scope of each command in LID 0x5, "\
+ "0x12, 0x13 %sSupported\n", lid_sup, lid_sup ? "" : "Not ");
+ printf(" [4:4] : %#x\tPersistent Event log %sSupported\n",
+ persevnt, persevnt ? "" : "Not ");
+ printf(" [3:3] : %#x\tTelemetry host/controller initiated log page %sSupported\n",
+ telem, telem ? "" : "Not ");
+ printf(" [2:2] : %#x\tExtended data for Get Log Page %sSupported\n",
+ ed, ed ? "" : "Not ");
+ printf(" [1:1] : %#x\tCommand Effects Log Page %sSupported\n",
+ celp, celp ? "" : "Not ");
+ printf(" [0:0] : %#x\tSMART/Health Log Page per NS %sSupported\n",
+ smlp, smlp ? "" : "Not ");
+ printf("\n");
+}
+
+static void stdout_id_ctrl_elpe(__u8 elpe)
+{
+ printf(" [7:0] : %d (0's based)\tError Log Page Entries (ELPE)\n",
+ elpe);
+ printf("\n");
+}
+
+static void stdout_id_ctrl_npss(__u8 npss)
+{
+ printf(" [7:0] : %d (0's based)\tNumber of Power States Support (NPSS)\n",
+ npss);
+ printf("\n");
+}
+
+static void stdout_id_ctrl_avscc(__u8 avscc)
+{
+ __u8 rsvd = (avscc & 0xFE) >> 1;
+ __u8 fmt = avscc & 0x1;
+ if (rsvd)
+ printf(" [7:1] : %#x\tReserved\n", rsvd);
+ printf(" [0:0] : %#x\tAdmin Vendor Specific Commands uses %s Format\n",
+ fmt, fmt ? "NVMe" : "Vendor Specific");
+ printf("\n");
+}
+
+static void stdout_id_ctrl_apsta(__u8 apsta)
+{
+ __u8 rsvd = (apsta & 0xFE) >> 1;
+ __u8 apst = apsta & 0x1;
+ if (rsvd)
+ printf(" [7:1] : %#x\tReserved\n", rsvd);
+ printf(" [0:0] : %#x\tAutonomous Power State Transitions %sSupported\n",
+ apst, apst ? "" : "Not ");
+ printf("\n");
+}
+
+static void stdout_id_ctrl_wctemp(__le16 wctemp)
+{
+ printf(" [15:0] : %ld °C (%u K)\tWarning Composite Temperature Threshold (WCTEMP)\n",
+ kelvin_to_celsius(le16_to_cpu(wctemp)), le16_to_cpu(wctemp));
+ printf("\n");
+}
+
+static void stdout_id_ctrl_cctemp(__le16 cctemp)
+{
+ printf(" [15:0] : %ld °C (%u K)\tCritical Composite Temperature Threshold (CCTEMP)\n",
+ kelvin_to_celsius(le16_to_cpu(cctemp)), le16_to_cpu(cctemp));
+ printf("\n");
+}
+
+static void stdout_id_ctrl_tnvmcap(__u8 *tnvmcap)
+{
+ printf("[127:0] : %s\n", uint128_t_to_l10n_string(le128_to_cpu(tnvmcap)));
+ printf("\tTotal NVM Capacity (TNVMCAP)\n\n");
+}
+
+static void stdout_id_ctrl_unvmcap(__u8 *unvmcap)
+{
+ printf("[127:0] : %s\n", uint128_t_to_l10n_string(le128_to_cpu(unvmcap)));
+ printf("\tUnallocated NVM Capacity (UNVMCAP)\n\n");
+}
+
+void stdout_id_ctrl_rpmbs(__le32 ctrl_rpmbs)
+{
+ __u32 rpmbs = le32_to_cpu(ctrl_rpmbs);
+ __u32 asz = (rpmbs & 0xFF000000) >> 24;
+ __u32 tsz = (rpmbs & 0xFF0000) >> 16;
+ __u32 rsvd = (rpmbs & 0xFFC0) >> 6;
+ __u32 auth = (rpmbs & 0x38) >> 3;
+ __u32 rpmb = rpmbs & 0x7;
+
+ printf(" [31:24]: %#x\tAccess Size\n", asz);
+ printf(" [23:16]: %#x\tTotal Size\n", tsz);
+ if (rsvd)
+ printf(" [15:6] : %#x\tReserved\n", rsvd);
+ printf(" [5:3] : %#x\tAuthentication Method\n", auth);
+ printf(" [2:0] : %#x\tNumber of RPMB Units\n", rpmb);
+ printf("\n");
+}
+
+static void stdout_id_ctrl_hctma(__le16 ctrl_hctma)
+{
+ __u16 hctma = le16_to_cpu(ctrl_hctma);
+ __u16 rsvd = (hctma & 0xFFFE) >> 1;
+ __u16 hctm = hctma & 0x1;
+
+ if (rsvd)
+ printf(" [15:1] : %#x\tReserved\n", rsvd);
+ printf(" [0:0] : %#x\tHost Controlled Thermal Management %sSupported\n",
+ hctm, hctm ? "" : "Not ");
+ printf("\n");
+}
+
+static void stdout_id_ctrl_mntmt(__le16 mntmt)
+{
+ printf(" [15:0] : %ld °C (%u K)\tMinimum Thermal Management Temperature (MNTMT)\n",
+ kelvin_to_celsius(le16_to_cpu(mntmt)), le16_to_cpu(mntmt));
+ printf("\n");
+}
+
+static void stdout_id_ctrl_mxtmt(__le16 mxtmt)
+{
+ printf(" [15:0] : %ld °C (%u K)\tMaximum Thermal Management Temperature (MXTMT)\n",
+ kelvin_to_celsius(le16_to_cpu(mxtmt)), le16_to_cpu(mxtmt));
+ printf("\n");
+}
+
+static void stdout_id_ctrl_sanicap(__le32 ctrl_sanicap)
+{
+ __u32 sanicap = le32_to_cpu(ctrl_sanicap);
+ __u32 rsvd = (sanicap & 0x1FFFFFF8) >> 3;
+ __u32 owr = (sanicap & 0x4) >> 2;
+ __u32 ber = (sanicap & 0x2) >> 1;
+ __u32 cer = sanicap & 0x1;
+ __u32 ndi = (sanicap & 0x20000000) >> 29;
+ __u32 nodmmas = (sanicap & 0xC0000000) >> 30;
+
+ static const char *modifies_media[] = {
+ "Additional media modification after sanitize operation completes successfully is not defined",
+ "Media is not additionally modified after sanitize operation completes successfully",
+ "Media is additionally modified after sanitize operation completes successfully",
+ "Reserved"
+ };
+
+ printf(" [31:30] : %#x\t%s\n", nodmmas, modifies_media[nodmmas]);
+ printf(" [29:29] : %#x\tNo-Deallocate After Sanitize bit in Sanitize command %sSupported\n",
+ ndi, ndi ? "Not " : "");
+ if (rsvd)
+ printf(" [28:3] : %#x\tReserved\n", rsvd);
+ printf(" [2:2] : %#x\tOverwrite Sanitize Operation %sSupported\n",
+ owr, owr ? "" : "Not ");
+ printf(" [1:1] : %#x\tBlock Erase Sanitize Operation %sSupported\n",
+ ber, ber ? "" : "Not ");
+ printf(" [0:0] : %#x\tCrypto Erase Sanitize Operation %sSupported\n",
+ cer, cer ? "" : "Not ");
+ printf("\n");
+}
+
+static void stdout_id_ctrl_anacap(__u8 anacap)
+{
+ __u8 nz = (anacap & 0x80) >> 7;
+ __u8 grpid_static = (anacap & 0x40) >> 6;
+ __u8 rsvd = (anacap & 0x20) >> 5;
+ __u8 ana_change = (anacap & 0x10) >> 4;
+ __u8 ana_persist_loss = (anacap & 0x08) >> 3;
+ __u8 ana_inaccessible = (anacap & 0x04) >> 2;
+ __u8 ana_nonopt = (anacap & 0x02) >> 1;
+ __u8 ana_opt = (anacap & 0x01);
+
+ printf(" [7:7] : %#x\tNon-zero group ID %sSupported\n",
+ nz, nz ? "" : "Not ");
+ printf(" [6:6] : %#x\tGroup ID does %schange\n",
+ grpid_static, grpid_static ? "not " : "");
+ if (rsvd)
+ printf(" [5:5] : %#x\tReserved\n", rsvd);
+ printf(" [4:4] : %#x\tANA Change state %sSupported\n",
+ ana_change, ana_change ? "" : "Not ");
+ printf(" [3:3] : %#x\tANA Persistent Loss state %sSupported\n",
+ ana_persist_loss, ana_persist_loss ? "" : "Not ");
+ printf(" [2:2] : %#x\tANA Inaccessible state %sSupported\n",
+ ana_inaccessible, ana_inaccessible ? "" : "Not ");
+ printf(" [1:1] : %#x\tANA Non-optimized state %sSupported\n",
+ ana_nonopt, ana_nonopt ? "" : "Not ");
+ printf(" [0:0] : %#x\tANA Optimized state %sSupported\n",
+ ana_opt, ana_opt ? "" : "Not ");
+ printf("\n");
+}
+
+static void stdout_id_ctrl_sqes(__u8 sqes)
+{
+ __u8 msqes = (sqes & 0xF0) >> 4;
+ __u8 rsqes = sqes & 0xF;
+ printf(" [7:4] : %#x\tMax SQ Entry Size (%d)\n", msqes, 1 << msqes);
+ printf(" [3:0] : %#x\tMin SQ Entry Size (%d)\n", rsqes, 1 << rsqes);
+ printf("\n");
+}
+
+static void stdout_id_ctrl_cqes(__u8 cqes)
+{
+ __u8 mcqes = (cqes & 0xF0) >> 4;
+ __u8 rcqes = cqes & 0xF;
+ printf(" [7:4] : %#x\tMax CQ Entry Size (%d)\n", mcqes, 1 << mcqes);
+ printf(" [3:0] : %#x\tMin CQ Entry Size (%d)\n", rcqes, 1 << rcqes);
+ printf("\n");
+}
+
+static void stdout_id_ctrl_oncs(__le16 ctrl_oncs)
+{
+ __u16 oncs = le16_to_cpu(ctrl_oncs);
+ __u16 rsvd = oncs >> 11;
+ bool afc = !!(oncs & NVME_CTRL_ONCS_ALL_FAST_COPY);
+ bool csa = !!(oncs & NVME_CTRL_ONCS_COPY_SINGLE_ATOMICITY);
+ bool copy = !!(oncs & NVME_CTRL_ONCS_COPY);
+ bool vrfy = !!(oncs & NVME_CTRL_ONCS_VERIFY);
+ bool tmst = !!(oncs & NVME_CTRL_ONCS_TIMESTAMP);
+ bool resv = !!(oncs & NVME_CTRL_ONCS_RESERVATIONS);
+ bool save = !!(oncs & NVME_CTRL_ONCS_SAVE_FEATURES);
+ bool wzro = !!(oncs & NVME_CTRL_ONCS_WRITE_ZEROES);
+ bool dsms = !!(oncs & NVME_CTRL_ONCS_DSM);
+ bool wunc = !!(oncs & NVME_CTRL_ONCS_WRITE_UNCORRECTABLE);
+ bool cmp = !!(oncs & NVME_CTRL_ONCS_COMPARE);
+
+ if (rsvd)
+ printf(" [15:11] : %#x\tReserved\n", rsvd);
+ printf(" [10:10] : %#x\tAll Fast Copy %sSupported\n",
+ afc, afc ? "" : "Not ");
+ printf(" [9:9] : %#x\tCopy Single Atomicity %sSupported\n",
+ csa, csa ? "" : "Not ");
+ printf(" [8:8] : %#x\tCopy %sSupported\n",
+ copy, copy ? "" : "Not ");
+ printf(" [7:7] : %#x\tVerify %sSupported\n",
+ vrfy, vrfy ? "" : "Not ");
+ printf(" [6:6] : %#x\tTimestamp %sSupported\n",
+ tmst, tmst ? "" : "Not ");
+ printf(" [5:5] : %#x\tReservations %sSupported\n",
+ resv, resv ? "" : "Not ");
+ printf(" [4:4] : %#x\tSave and Select %sSupported\n",
+ save, save ? "" : "Not ");
+ printf(" [3:3] : %#x\tWrite Zeroes %sSupported\n",
+ wzro, wzro ? "" : "Not ");
+ printf(" [2:2] : %#x\tData Set Management %sSupported\n",
+ dsms, dsms ? "" : "Not ");
+ printf(" [1:1] : %#x\tWrite Uncorrectable %sSupported\n",
+ wunc, wunc ? "" : "Not ");
+ printf(" [0:0] : %#x\tCompare %sSupported\n",
+ cmp, cmp ? "" : "Not ");
+ printf("\n");
+}
+
+static void stdout_id_ctrl_fuses(__le16 ctrl_fuses)
+{
+ __u16 fuses = le16_to_cpu(ctrl_fuses);
+ __u16 rsvd = (fuses & 0xFE) >> 1;
+ __u16 cmpw = fuses & 0x1;
+
+ if (rsvd)
+ printf(" [15:1] : %#x\tReserved\n", rsvd);
+ printf(" [0:0] : %#x\tFused Compare and Write %sSupported\n",
+ cmpw, cmpw ? "" : "Not ");
+ printf("\n");
+}
+
+static void stdout_id_ctrl_fna(__u8 fna)
+{
+ __u8 rsvd = (fna & 0xF0) >> 4;
+ __u8 bcnsid = (fna & 0x8) >> 3;
+ __u8 cese = (fna & 0x4) >> 2;
+ __u8 cens = (fna & 0x2) >> 1;
+ __u8 fmns = fna & 0x1;
+ if (rsvd)
+ printf(" [7:4] : %#x\tReserved\n", rsvd);
+ printf(" [3:3] : %#x\tFormat NVM Broadcast NSID (FFFFFFFFh) %sSupported\n",
+ bcnsid, bcnsid ? "Not " : "");
+ printf(" [2:2] : %#x\tCrypto Erase %sSupported as part of Secure Erase\n",
+ cese, cese ? "" : "Not ");
+ printf(" [1:1] : %#x\tCrypto Erase Applies to %s Namespace(s)\n",
+ cens, cens ? "All" : "Single");
+ printf(" [0:0] : %#x\tFormat Applies to %s Namespace(s)\n",
+ fmns, fmns ? "All" : "Single");
+ printf("\n");
+}
+
+static void stdout_id_ctrl_vwc(__u8 vwc)
+{
+ __u8 rsvd = (vwc & 0xF8) >> 3;
+ __u8 flush = (vwc & 0x6) >> 1;
+ __u8 vwcp = vwc & 0x1;
+
+ static const char *flush_behavior[] = {
+ "Support for the NSID field set to FFFFFFFFh is not indicated",
+ "Reserved",
+ "The Flush command does not support NSID set to FFFFFFFFh",
+ "The Flush command supports NSID set to FFFFFFFFh"
+ };
+
+ if (rsvd)
+ printf(" [7:3] : %#x\tReserved\n", rsvd);
+ printf(" [2:1] : %#x\t%s\n", flush, flush_behavior[flush]);
+ printf(" [0:0] : %#x\tVolatile Write Cache %sPresent\n",
+ vwcp, vwcp ? "" : "Not ");
+ printf("\n");
+}
+
+static void stdout_id_ctrl_icsvscc(__u8 icsvscc)
+{
+ __u8 rsvd = (icsvscc & 0xFE) >> 1;
+ __u8 fmt = icsvscc & 0x1;
+ if (rsvd)
+ printf(" [7:1] : %#x\tReserved\n", rsvd);
+ printf(" [0:0] : %#x\tNVM Vendor Specific Commands uses %s Format\n",
+ fmt, fmt ? "NVMe" : "Vendor Specific");
+ printf("\n");
+}
+
+static void stdout_id_ctrl_nwpc(__u8 nwpc)
+{
+ __u8 no_wp_wp = (nwpc & 0x01);
+ __u8 wp_power_cycle = (nwpc & 0x02) >> 1;
+ __u8 wp_permanent = (nwpc & 0x04) >> 2;
+ __u8 rsvd = (nwpc & 0xF8) >> 3;
+
+ if (rsvd)
+ printf(" [7:3] : %#x\tReserved\n", rsvd);
+
+ printf(" [2:2] : %#x\tPermanent Write Protect %sSupported\n",
+ wp_permanent, wp_permanent ? "" : "Not ");
+ printf(" [1:1] : %#x\tWrite Protect Until Power Supply %sSupported\n",
+ wp_power_cycle, wp_power_cycle ? "" : "Not ");
+ printf(" [0:0] : %#x\tNo Write Protect and Write Protect Namespace %sSupported\n",
+ no_wp_wp, no_wp_wp ? "" : "Not ");
+ printf("\n");
+}
+
+static void stdout_id_ctrl_ocfs(__le16 ctrl_ocfs)
+{
+ __u16 ocfs = le16_to_cpu(ctrl_ocfs);
+ __u16 rsvd = ocfs >> 4;
+ __u8 copy_fmt_supported;
+ int copy_fmt;
+ if (rsvd)
+ printf(" [15:4] : %#x\tReserved\n", rsvd);
+ for (copy_fmt = 3; copy_fmt >= 0; copy_fmt--) {
+ copy_fmt_supported = ocfs >> copy_fmt & 1;
+ printf(" [%d:%d] : %#x\tController Copy Format %xh %sSupported\n", copy_fmt, copy_fmt,
+ copy_fmt_supported, copy_fmt, copy_fmt_supported ? "" : "Not ");
+ }
+ printf("\n");
+}
+
+static void stdout_id_ctrl_sgls(__le32 ctrl_sgls)
+{
+ __u32 sgls = le32_to_cpu(ctrl_sgls);
+ __u32 rsvd0 = (sgls & 0xFFC00000) >> 22;
+ __u32 trsdbd = (sgls & 0x200000) >> 21;
+ __u32 aofdsl = (sgls & 0x100000) >> 20;
+ __u32 mpcsd = (sgls & 0x80000) >> 19;
+ __u32 sglltb = (sgls & 0x40000) >> 18;
+ __u32 bacmdb = (sgls & 0x20000) >> 17;
+ __u32 bbs = (sgls & 0x10000) >> 16;
+ __u32 sdt = (sgls >> 8) & 0xff;
+ __u32 rsvd1 = (sgls & 0xF8) >> 3;
+ __u32 key = (sgls & 0x4) >> 2;
+ __u32 sglsp = sgls & 0x3;
+
+ if (rsvd0)
+ printf(" [31:22]: %#x\tReserved\n", rsvd0);
+ if (sglsp || (!sglsp && trsdbd))
+ printf(" [21:21]: %#x\tTransport SGL Data Block Descriptor %sSupported\n",
+ trsdbd, trsdbd ? "" : "Not ");
+ if (sglsp || (!sglsp && aofdsl))
+ printf(" [20:20]: %#x\tAddress Offsets %sSupported\n",
+ aofdsl, aofdsl ? "" : "Not ");
+ if (sglsp || (!sglsp && mpcsd))
+ printf(" [19:19]: %#x\tMetadata Pointer Containing "
+ "SGL Descriptor is %sSupported\n",
+ mpcsd, mpcsd ? "" : "Not ");
+ if (sglsp || (!sglsp && sglltb))
+ printf(" [18:18]: %#x\tSGL Length Larger than Buffer %sSupported\n",
+ sglltb, sglltb ? "" : "Not ");
+ if (sglsp || (!sglsp && bacmdb))
+ printf(" [17:17]: %#x\tByte-Aligned Contig. MD Buffer %sSupported\n",
+ bacmdb, bacmdb ? "" : "Not ");
+ if (sglsp || (!sglsp && bbs))
+ printf(" [16:16]: %#x\tSGL Bit-Bucket %sSupported\n",
+ bbs, bbs ? "" : "Not ");
+ printf(" [15:8] : %#x\tSGL Descriptor Threshold\n", sdt);
+ if (rsvd1)
+ printf(" [7:3] : %#x\tReserved\n", rsvd1);
+ if (sglsp || (!sglsp && key))
+ printf(" [2:2] : %#x\tKeyed SGL Data Block descriptor %sSupported\n",
+ key, key ? "" : "Not ");
+ if (sglsp == 0x3)
+ printf(" [1:0] : %#x\tReserved\n", sglsp);
+ else if (sglsp == 0x2)
+ printf(" [1:0] : %#x\tScatter-Gather Lists Supported."
+ " Dword alignment required.\n", sglsp);
+ else if (sglsp == 0x1)
+ printf(" [1:0] : %#x\tScatter-Gather Lists Supported."
+ " No Dword alignment required.\n", sglsp);
+ else
+ printf(" [1:0] : %#x\tScatter-Gather Lists Not Supported\n", sglsp);
+ printf("\n");
+}
+
+static void stdout_id_ctrl_fcatt(__u8 fcatt)
+{
+ __u8 rsvd = (fcatt & 0xFE) >> 1;
+ __u8 scm = fcatt & 0x1;
+ if (rsvd)
+ printf(" [7:1] : %#x\tReserved\n", rsvd);
+ printf(" [0:0] : %#x\t%s Controller Model\n",
+ scm, scm ? "Static" : "Dynamic");
+ printf("\n");
+}
+
+static void stdout_id_ctrl_ofcs(__le16 ofcs)
+{
+ __u16 rsvd = (ofcs & 0xfffe) >> 1;
+ __u8 disconn = ofcs & 0x1;
+ if (rsvd)
+ printf(" [15:1] : %#x\tReserved\n", rsvd);
+ printf(" [0:0] : %#x\tDisconnect command %s Supported\n",
+ disconn, disconn ? "" : "Not");
+ printf("\n");
+
+}
+
+static void stdout_id_ns_nsfeat(__u8 nsfeat)
+{
+ __u8 rsvd = (nsfeat & 0xE0) >> 5;
+ __u8 ioopt = (nsfeat & 0x10) >> 4;
+ __u8 uidreuse = (nsfeat & 0x8) >> 3;
+ __u8 dulbe = (nsfeat & 0x4) >> 2;
+ __u8 na = (nsfeat & 0x2) >> 1;
+ __u8 thin = nsfeat & 0x1;
+ if (rsvd)
+ printf(" [7:5] : %#x\tReserved\n", rsvd);
+ printf(" [4:4] : %#x\tNPWG, NPWA, NPDG, NPDA, and NOWS are %sSupported\n",
+ ioopt, ioopt ? "" : "Not ");
+ printf(" [3:3] : %#x\tNGUID and EUI64 fields if non-zero, %sReused\n",
+ uidreuse, uidreuse ? "Never " : "");
+ printf(" [2:2] : %#x\tDeallocated or Unwritten Logical Block error %sSupported\n",
+ dulbe, dulbe ? "" : "Not ");
+ printf(" [1:1] : %#x\tNamespace uses %s\n",
+ na, na ? "NAWUN, NAWUPF, and NACWU" : "AWUN, AWUPF, and ACWU");
+ printf(" [0:0] : %#x\tThin Provisioning %sSupported\n",
+ thin, thin ? "" : "Not ");
+ printf("\n");
+}
+
+static void stdout_id_ns_flbas(__u8 flbas)
+{
+ __u8 rsvd = (flbas & 0x80) >> 7;
+ __u8 msb2_lbaf = (flbas & NVME_NS_FLBAS_HIGHER_MASK) >> 5;
+ __u8 mdedata = (flbas & 0x10) >> 4;
+ __u8 lsb4_lbaf = flbas & NVME_NS_FLBAS_LOWER_MASK;
+
+ if (rsvd)
+ printf(" [7:7] : %#x\tReserved\n", rsvd);
+ printf(" [6:5] : %#x\tMost significant 2 bits of Current LBA Format Selected\n",
+ msb2_lbaf);
+ printf(" [4:4] : %#x\tMetadata Transferred %s\n",
+ mdedata, mdedata ? "at End of Data LBA" : "in Separate Contiguous Buffer");
+ printf(" [3:0] : %#x\tLeast significant 4 bits of Current LBA Format Selected\n",
+ lsb4_lbaf);
+ printf("\n");
+}
+
+static void stdout_id_ns_mc(__u8 mc)
+{
+ __u8 rsvd = (mc & 0xFC) >> 2;
+ __u8 mdp = (mc & 0x2) >> 1;
+ __u8 extdlba = mc & 0x1;
+ if (rsvd)
+ printf(" [7:2] : %#x\tReserved\n", rsvd);
+ printf(" [1:1] : %#x\tMetadata Pointer %sSupported\n",
+ mdp, mdp ? "" : "Not ");
+ printf(" [0:0] : %#x\tMetadata as Part of Extended Data LBA %sSupported\n",
+ extdlba, extdlba ? "" : "Not ");
+ printf("\n");
+}
+
+static void stdout_id_ns_dpc(__u8 dpc)
+{
+ __u8 rsvd = (dpc & 0xE0) >> 5;
+ __u8 pil8 = (dpc & 0x10) >> 4;
+ __u8 pif8 = (dpc & 0x8) >> 3;
+ __u8 pit3 = (dpc & 0x4) >> 2;
+ __u8 pit2 = (dpc & 0x2) >> 1;
+ __u8 pit1 = dpc & 0x1;
+ if (rsvd)
+ printf(" [7:5] : %#x\tReserved\n", rsvd);
+ printf(" [4:4] : %#x\tProtection Information Transferred as Last Bytes of Metadata %sSupported\n",
+ pil8, pil8 ? "" : "Not ");
+ printf(" [3:3] : %#x\tProtection Information Transferred as First Bytes of Metadata %sSupported\n",
+ pif8, pif8 ? "" : "Not ");
+ printf(" [2:2] : %#x\tProtection Information Type 3 %sSupported\n",
+ pit3, pit3 ? "" : "Not ");
+ printf(" [1:1] : %#x\tProtection Information Type 2 %sSupported\n",
+ pit2, pit2 ? "" : "Not ");
+ printf(" [0:0] : %#x\tProtection Information Type 1 %sSupported\n",
+ pit1, pit1 ? "" : "Not ");
+ printf("\n");
+}
+
+static void stdout_id_ns_dps(__u8 dps)
+{
+ __u8 rsvd = (dps & 0xF0) >> 4;
+ __u8 pif8 = (dps & 0x8) >> 3;
+ __u8 pit = dps & 0x7;
+ if (rsvd)
+ printf(" [7:4] : %#x\tReserved\n", rsvd);
+ printf(" [3:3] : %#x\tProtection Information is Transferred as %s Bytes of Metadata\n",
+ pif8, pif8 ? "First" : "Last");
+ printf(" [2:0] : %#x\tProtection Information %s\n", pit,
+ pit == 3 ? "Type 3 Enabled" :
+ pit == 2 ? "Type 2 Enabled" :
+ pit == 1 ? "Type 1 Enabled" :
+ pit == 0 ? "Disabled" : "Reserved Enabled");
+ printf("\n");
+}
+
+static void stdout_id_ns_nmic(__u8 nmic)
+{
+ __u8 rsvd = (nmic & 0xFE) >> 1;
+ __u8 mp = nmic & 0x1;
+ if (rsvd)
+ printf(" [7:1] : %#x\tReserved\n", rsvd);
+ printf(" [0:0] : %#x\tNamespace Multipath %sCapable\n",
+ mp, mp ? "" : "Not ");
+ printf("\n");
+}
+
+static void stdout_id_ns_rescap(__u8 rescap)
+{
+ __u8 iekr = (rescap & 0x80) >> 7;
+ __u8 eaar = (rescap & 0x40) >> 6;
+ __u8 wear = (rescap & 0x20) >> 5;
+ __u8 earo = (rescap & 0x10) >> 4;
+ __u8 wero = (rescap & 0x8) >> 3;
+ __u8 ea = (rescap & 0x4) >> 2;
+ __u8 we = (rescap & 0x2) >> 1;
+ __u8 ptpl = rescap & 0x1;
+
+ printf(" [7:7] : %#x\tIgnore Existing Key - Used as defined in revision %s\n",
+ iekr, iekr ? "1.3 or later" : "1.2.1 or earlier");
+ printf(" [6:6] : %#x\tExclusive Access - All Registrants %sSupported\n",
+ eaar, eaar ? "" : "Not ");
+ printf(" [5:5] : %#x\tWrite Exclusive - All Registrants %sSupported\n",
+ wear, wear ? "" : "Not ");
+ printf(" [4:4] : %#x\tExclusive Access - Registrants Only %sSupported\n",
+ earo, earo ? "" : "Not ");
+ printf(" [3:3] : %#x\tWrite Exclusive - Registrants Only %sSupported\n",
+ wero, wero ? "" : "Not ");
+ printf(" [2:2] : %#x\tExclusive Access %sSupported\n",
+ ea, ea ? "" : "Not ");
+ printf(" [1:1] : %#x\tWrite Exclusive %sSupported\n",
+ we, we ? "" : "Not ");
+ printf(" [0:0] : %#x\tPersist Through Power Loss %sSupported\n",
+ ptpl, ptpl ? "" : "Not ");
+ printf("\n");
+}
+
+static void stdout_id_ns_fpi(__u8 fpi)
+{
+ __u8 fpis = (fpi & 0x80) >> 7;
+ __u8 fpii = fpi & 0x7F;
+ printf(" [7:7] : %#x\tFormat Progress Indicator %sSupported\n",
+ fpis, fpis ? "" : "Not ");
+ if (fpis || (!fpis && fpii))
+ printf(" [6:0] : %#x\tFormat Progress Indicator (Remaining %d%%)\n",
+ fpii, fpii);
+ printf("\n");
+}
+
+static void stdout_id_ns_nsattr(__u8 nsattr)
+{
+ __u8 rsvd = (nsattr & 0xFE) >> 1;
+ __u8 write_protected = nsattr & 0x1;
+ if (rsvd)
+ printf(" [7:1] : %#x\tReserved\n", rsvd);
+ printf(" [0:0] : %#x\tNamespace %sWrite Protected\n",
+ write_protected, write_protected ? "" : "Not ");
+ printf("\n");
+}
+
+static void stdout_id_ns_dlfeat(__u8 dlfeat)
+{
+ __u8 rsvd = (dlfeat & 0xE0) >> 5;
+ __u8 guard = (dlfeat & 0x10) >> 4;
+ __u8 dwz = (dlfeat & 0x8) >> 3;
+ __u8 val = dlfeat & 0x7;
+ if (rsvd)
+ printf(" [7:5] : %#x\tReserved\n", rsvd);
+ printf(" [4:4] : %#x\tGuard Field of Deallocated Logical Blocks is set to %s\n",
+ guard, guard ? "CRC of The Value Read" : "0xFFFF");
+ printf(" [3:3] : %#x\tDeallocate Bit in the Write Zeroes Command is %sSupported\n",
+ dwz, dwz ? "" : "Not ");
+ printf(" [2:0] : %#x\tBytes Read From a Deallocated Logical Block and its Metadata are %s\n",
+ val, val == 2 ? "0xFF" :
+ val == 1 ? "0x00" :
+ val == 0 ? "Not Reported" : "Reserved Value");
+ printf("\n");
+}
+
+static void stdout_id_ns(struct nvme_id_ns *ns, unsigned int nsid,
+ unsigned int lba_index, bool cap_only)
+{
+ bool human = stdout_print_ops.flags & VERBOSE;
+ int vs = stdout_print_ops.flags & VS;
+ int i;
+ __u8 flbas;
+ char *in_use = "(in use)";
+
+ if (!cap_only) {
+ printf("NVME Identify Namespace %d:\n", nsid);
+ printf("nsze : %#"PRIx64"\n", le64_to_cpu(ns->nsze));
+ printf("ncap : %#"PRIx64"\n", le64_to_cpu(ns->ncap));
+ printf("nuse : %#"PRIx64"\n", le64_to_cpu(ns->nuse));
+ printf("nsfeat : %#x\n", ns->nsfeat);
+ if (human)
+ stdout_id_ns_nsfeat(ns->nsfeat);
+ } else
+ printf("NVMe Identify Namespace for LBA format[%d]:\n", lba_index);
+
+ printf("nlbaf : %d\n", ns->nlbaf);
+ if (!cap_only) {
+ printf("flbas : %#x\n", ns->flbas);
+ if (human)
+ stdout_id_ns_flbas(ns->flbas);
+ } else
+ in_use = "";
+
+ printf("mc : %#x\n", ns->mc);
+ if (human)
+ stdout_id_ns_mc(ns->mc);
+ printf("dpc : %#x\n", ns->dpc);
+ if (human)
+ stdout_id_ns_dpc(ns->dpc);
+ if (!cap_only) {
+ printf("dps : %#x\n", ns->dps);
+ if (human)
+ stdout_id_ns_dps(ns->dps);
+ printf("nmic : %#x\n", ns->nmic);
+ if (human)
+ stdout_id_ns_nmic(ns->nmic);
+ printf("rescap : %#x\n", ns->rescap);
+ if (human)
+ stdout_id_ns_rescap(ns->rescap);
+ printf("fpi : %#x\n", ns->fpi);
+ if (human)
+ stdout_id_ns_fpi(ns->fpi);
+ printf("dlfeat : %d\n", ns->dlfeat);
+ if (human)
+ stdout_id_ns_dlfeat(ns->dlfeat);
+ printf("nawun : %d\n", le16_to_cpu(ns->nawun));
+ printf("nawupf : %d\n", le16_to_cpu(ns->nawupf));
+ printf("nacwu : %d\n", le16_to_cpu(ns->nacwu));
+ printf("nabsn : %d\n", le16_to_cpu(ns->nabsn));
+ printf("nabo : %d\n", le16_to_cpu(ns->nabo));
+ printf("nabspf : %d\n", le16_to_cpu(ns->nabspf));
+ printf("noiob : %d\n", le16_to_cpu(ns->noiob));
+ printf("nvmcap : %s\n",
+ uint128_t_to_l10n_string(le128_to_cpu(ns->nvmcap)));
+ if (ns->nsfeat & 0x10) {
+ printf("npwg : %u\n", le16_to_cpu(ns->npwg));
+ printf("npwa : %u\n", le16_to_cpu(ns->npwa));
+ printf("npdg : %u\n", le16_to_cpu(ns->npdg));
+ printf("npda : %u\n", le16_to_cpu(ns->npda));
+ printf("nows : %u\n", le16_to_cpu(ns->nows));
+ }
+ printf("mssrl : %u\n", le16_to_cpu(ns->mssrl));
+ printf("mcl : %u\n", le32_to_cpu(ns->mcl));
+ printf("msrc : %u\n", ns->msrc);
+ }
+ printf("nulbaf : %u\n", ns->nulbaf);
+ if (!cap_only) {
+ printf("anagrpid: %u\n", le32_to_cpu(ns->anagrpid));
+ printf("nsattr : %u\n", ns->nsattr);
+ printf("nvmsetid: %d\n", le16_to_cpu(ns->nvmsetid));
+ printf("endgid : %d\n", le16_to_cpu(ns->endgid));
+
+ printf("nguid : ");
+ for (i = 0; i < 16; i++)
+ printf("%02x", ns->nguid[i]);
+ printf("\n");
+
+ printf("eui64 : ");
+ for (i = 0; i < 8; i++)
+ printf("%02x", ns->eui64[i]);
+ printf("\n");
+ }
+
+ nvme_id_ns_flbas_to_lbaf_inuse(ns->flbas, &flbas);
+ for (i = 0; i <= ns->nlbaf + ns->nulbaf; i++) {
+ if (human)
+ printf("LBA Format %2d : Metadata Size: %-3d bytes - "
+ "Data Size: %-2d bytes - Relative Performance: %#x %s %s\n",
+ i, le16_to_cpu(ns->lbaf[i].ms),
+ 1 << ns->lbaf[i].ds, ns->lbaf[i].rp,
+ ns->lbaf[i].rp == 3 ? "Degraded" :
+ ns->lbaf[i].rp == 2 ? "Good" :
+ ns->lbaf[i].rp == 1 ? "Better" : "Best",
+ i == flbas ? in_use : "");
+ else
+ printf("lbaf %2d : ms:%-3d lbads:%-2d rp:%#x %s\n", i,
+ le16_to_cpu(ns->lbaf[i].ms), ns->lbaf[i].ds,
+ ns->lbaf[i].rp, i == flbas ? in_use : "");
+ }
+
+ if (vs && !cap_only) {
+ printf("vs[]:\n");
+ d(ns->vs, sizeof(ns->vs), 16, 1);
+ }
+}
+
+static void stdout_cmd_set_independent_id_ns_nsfeat(__u8 nsfeat)
+{
+ __u8 rsvd6 = (nsfeat & 0xE0) >> 6;
+ __u8 vwcnp = (nsfeat & 0x20) >> 5;
+ __u8 rmedia = (nsfeat & 0x10) >> 4;
+ __u8 uidreuse = (nsfeat & 0x8) >> 3;
+ __u8 rsvd0 = (nsfeat & 0x7);
+ if (rsvd6)
+ printf(" [7:6] : %#x\tReserved\n", rsvd6);
+ printf(" [5:5] : %#x\tVolatile Write Cache is %sPresent\n",
+ vwcnp, vwcnp ? "" : "Not ");
+ printf(" [4:4] : %#x\tNamespace %sstore data on rotational media\n",
+ rmedia, rmedia ? "" : "does not ");
+ printf(" [3:3] : %#x\tNGUID and EUI64 fields if non-zero, %sReused\n",
+ uidreuse, uidreuse ? "Never " : "");
+ if (rsvd0)
+ printf(" [2:0] : %#x\tReserved\n", rsvd0);
+ printf("\n");
+}
+
+static void stdout_cmd_set_independent_id_ns_nstat(__u8 nstat)
+{
+ __u8 rsvd1 = (nstat & 0xfe) >> 1;
+ __u8 nrdy = nstat & 0x1;
+ if (rsvd1)
+ printf(" [7:1] : %#x\tReserved\n", rsvd1);
+ printf(" [0:0] : %#x\tName space is %sready\n",
+ nrdy, nrdy ? "" : "not ");
+ printf("\n");
+}
+
+static void stdout_cmd_set_independent_id_ns(struct nvme_id_independent_id_ns *ns,
+ unsigned int nsid)
+{
+ int human = stdout_print_ops.flags & VERBOSE;
+
+ printf("NVME Identify Command Set Independent Namespace %d:\n", nsid);
+ printf("nsfeat : %#x\n", ns->nsfeat);
+ if (human)
+ stdout_cmd_set_independent_id_ns_nsfeat(ns->nsfeat);
+ printf("nmic : %#x\n", ns->nmic);
+ if (human)
+ stdout_id_ns_nmic(ns->nmic);
+ printf("rescap : %#x\n", ns->rescap);
+ if (human)
+ stdout_id_ns_rescap(ns->rescap);
+ printf("fpi : %#x\n", ns->fpi);
+ if (human)
+ stdout_id_ns_fpi(ns->fpi);
+ printf("anagrpid: %u\n", le32_to_cpu(ns->anagrpid));
+ printf("nsattr : %u\n", ns->nsattr);
+ if (human)
+ stdout_id_ns_nsattr(ns->nsattr);
+ printf("nvmsetid: %d\n", le16_to_cpu(ns->nvmsetid));
+ printf("endgid : %d\n", le16_to_cpu(ns->endgid));
+
+ printf("nstat : %#x\n", ns->nstat);
+ if (human)
+ stdout_cmd_set_independent_id_ns_nstat(ns->nstat);
+}
+
+static void stdout_id_ns_descs(void *data, unsigned int nsid)
+{
+ int pos, len = 0;
+ int i;
+ __u8 uuid[NVME_UUID_LEN];
+ char uuid_str[NVME_UUID_LEN_STRING];
+ __u8 eui64[8];
+ __u8 nguid[16];
+ __u8 csi;
+
+ printf("NVME Namespace Identification Descriptors NS %d:\n", nsid);
+ for (pos = 0; pos < NVME_IDENTIFY_DATA_SIZE; pos += len) {
+ struct nvme_ns_id_desc *cur = data + pos;
+
+ if (cur->nidl == 0)
+ break;
+
+ switch (cur->nidt) {
+ case NVME_NIDT_EUI64:
+ memcpy(eui64, data + pos + sizeof(*cur), sizeof(eui64));
+ printf("eui64 : ");
+ for (i = 0; i < 8; i++)
+ printf("%02x", eui64[i]);
+ printf("\n");
+ len = sizeof(eui64);
+ break;
+ case NVME_NIDT_NGUID:
+ memcpy(nguid, data + pos + sizeof(*cur), sizeof(nguid));
+ printf("nguid : ");
+ for (i = 0; i < 16; i++)
+ printf("%02x", nguid[i]);
+ printf("\n");
+ len = sizeof(nguid);
+ break;
+ case NVME_NIDT_UUID:
+ memcpy(uuid, data + pos + sizeof(*cur), 16);
+ nvme_uuid_to_string(uuid, uuid_str);
+ printf("uuid : %s\n", uuid_str);
+ len = sizeof(uuid);
+ break;
+ case NVME_NIDT_CSI:
+ memcpy(&csi, data + pos + sizeof(*cur), 1);
+ printf("csi : %#x\n", csi);
+ len += sizeof(csi);
+ break;
+ default:
+ /* Skip unknown types */
+ len = cur->nidl;
+ break;
+ }
+
+ len += sizeof(*cur);
+ }
+}
+
+static void print_psd_workload(__u8 apw)
+{
+ switch (apw & 0x7) {
+ case NVME_PSD_WORKLOAD_NP:
+ /* Unknown or not provided */
+ printf("-");
+ break;
+ case 1:
+ /* Extended idle period with burst of random write */
+ printf("1MiB 32 RW, 30s idle");
+ break;
+ case 2:
+ /* Heavy sequential writes */
+ printf("80K 128KiB SW");
+ break;
+ default:
+ printf("reserved");
+ break;
+ }
+}
+
+static void print_ps_power_and_scale(__le16 ctr_power, __u8 scale)
+{
+ __u16 power = le16_to_cpu(ctr_power);
+
+ switch (scale & 0x3) {
+ case NVME_PSD_PS_NOT_REPORTED:
+ /* Not reported for this power state */
+ printf("-");
+ break;
+ case NVME_PSD_PS_100_MICRO_WATT:
+ /* Units of 0.0001W */
+ printf("%01u.%04uW", power / 10000, power % 10000);
+ break;
+ case NVME_PSD_PS_10_MILLI_WATT:
+ /* Units of 0.01W */
+ printf("%01u.%02uW", power / 100, power % 100);
+ break;
+ default:
+ printf("reserved");
+ break;
+ }
+}
+
+static void stdout_id_ctrl_power(struct nvme_id_ctrl *ctrl)
+{
+ int i;
+
+ for (i = 0; i <= ctrl->npss; i++) {
+ __u16 max_power = le16_to_cpu(ctrl->psd[i].mp);
+
+ printf("ps %4d : mp:", i);
+
+ if (ctrl->psd[i].flags & NVME_PSD_FLAGS_MXPS)
+ printf("%01u.%04uW ", max_power / 10000, max_power % 10000);
+ else
+ printf("%01u.%02uW ", max_power / 100, max_power % 100);
+
+ if (ctrl->psd[i].flags & NVME_PSD_FLAGS_NOPS)
+ printf("non-");
+
+ printf("operational enlat:%d exlat:%d rrt:%d rrl:%d\n"
+ " rwt:%d rwl:%d idle_power:",
+ le32_to_cpu(ctrl->psd[i].enlat),
+ le32_to_cpu(ctrl->psd[i].exlat),
+ ctrl->psd[i].rrt, ctrl->psd[i].rrl,
+ ctrl->psd[i].rwt, ctrl->psd[i].rwl);
+ print_ps_power_and_scale(ctrl->psd[i].idlp,
+ nvme_psd_power_scale(ctrl->psd[i].ips));
+ printf(" active_power:");
+ print_ps_power_and_scale(ctrl->psd[i].actp,
+ nvme_psd_power_scale(ctrl->psd[i].apws));
+ printf("\n active_power_workload:");
+ print_psd_workload(ctrl->psd[i].apws);
+ printf("\n");
+
+ }
+}
+
+static void stdout_id_ctrl(struct nvme_id_ctrl *ctrl,
+ void (*vendor_show)(__u8 *vs, struct json_object *root))
+{
+ bool human = stdout_print_ops.flags & VERBOSE, vs = stdout_print_ops.flags & VS;
+
+ printf("NVME Identify Controller:\n");
+ printf("vid : %#x\n", le16_to_cpu(ctrl->vid));
+ printf("ssvid : %#x\n", le16_to_cpu(ctrl->ssvid));
+ printf("sn : %-.*s\n", (int)sizeof(ctrl->sn), ctrl->sn);
+ printf("mn : %-.*s\n", (int)sizeof(ctrl->mn), ctrl->mn);
+ printf("fr : %-.*s\n", (int)sizeof(ctrl->fr), ctrl->fr);
+ printf("rab : %d\n", ctrl->rab);
+ printf("ieee : %02x%02x%02x\n",
+ ctrl->ieee[2], ctrl->ieee[1], ctrl->ieee[0]);
+ printf("cmic : %#x\n", ctrl->cmic);
+ if (human)
+ stdout_id_ctrl_cmic(ctrl->cmic);
+ printf("mdts : %d\n", ctrl->mdts);
+ printf("cntlid : %#x\n", le16_to_cpu(ctrl->cntlid));
+ printf("ver : %#x\n", le32_to_cpu(ctrl->ver));
+ printf("rtd3r : %#x\n", le32_to_cpu(ctrl->rtd3r));
+ printf("rtd3e : %#x\n", le32_to_cpu(ctrl->rtd3e));
+ printf("oaes : %#x\n", le32_to_cpu(ctrl->oaes));
+ if (human)
+ stdout_id_ctrl_oaes(ctrl->oaes);
+ printf("ctratt : %#x\n", le32_to_cpu(ctrl->ctratt));
+ if (human)
+ stdout_id_ctrl_ctratt(ctrl->ctratt);
+ printf("rrls : %#x\n", le16_to_cpu(ctrl->rrls));
+ printf("cntrltype : %d\n", ctrl->cntrltype);
+ if (human)
+ stdout_id_ctrl_cntrltype(ctrl->cntrltype);
+ printf("fguid : %s\n", util_uuid_to_string(ctrl->fguid));
+ printf("crdt1 : %u\n", le16_to_cpu(ctrl->crdt1));
+ printf("crdt2 : %u\n", le16_to_cpu(ctrl->crdt2));
+ printf("crdt3 : %u\n", le16_to_cpu(ctrl->crdt3));
+ printf("nvmsr : %u\n", ctrl->nvmsr);
+ if (human)
+ stdout_id_ctrl_nvmsr(ctrl->nvmsr);
+ printf("vwci : %u\n", ctrl->vwci);
+ if (human)
+ stdout_id_ctrl_vwci(ctrl->vwci);
+ printf("mec : %u\n", ctrl->mec);
+ if (human)
+ stdout_id_ctrl_mec(ctrl->mec);
+
+ printf("oacs : %#x\n", le16_to_cpu(ctrl->oacs));
+ if (human)
+ stdout_id_ctrl_oacs(ctrl->oacs);
+ printf("acl : %d\n", ctrl->acl);
+ printf("aerl : %d\n", ctrl->aerl);
+ printf("frmw : %#x\n", ctrl->frmw);
+ if (human)
+ stdout_id_ctrl_frmw(ctrl->frmw);
+ printf("lpa : %#x\n", ctrl->lpa);
+ if (human)
+ stdout_id_ctrl_lpa(ctrl->lpa);
+ printf("elpe : %d\n", ctrl->elpe);
+ if (human)
+ stdout_id_ctrl_elpe(ctrl->elpe);
+ printf("npss : %d\n", ctrl->npss);
+ if (human)
+ stdout_id_ctrl_npss(ctrl->npss);
+ printf("avscc : %#x\n", ctrl->avscc);
+ if (human)
+ stdout_id_ctrl_avscc(ctrl->avscc);
+ printf("apsta : %#x\n", ctrl->apsta);
+ if (human)
+ stdout_id_ctrl_apsta(ctrl->apsta);
+ printf("wctemp : %d\n", le16_to_cpu(ctrl->wctemp));
+ if (human)
+ stdout_id_ctrl_wctemp(ctrl->wctemp);
+ printf("cctemp : %d\n", le16_to_cpu(ctrl->cctemp));
+ if (human)
+ stdout_id_ctrl_cctemp(ctrl->cctemp);
+ printf("mtfa : %d\n", le16_to_cpu(ctrl->mtfa));
+ printf("hmpre : %u\n", le32_to_cpu(ctrl->hmpre));
+ printf("hmmin : %u\n", le32_to_cpu(ctrl->hmmin));
+ printf("tnvmcap : %s\n",
+ uint128_t_to_l10n_string(le128_to_cpu(ctrl->tnvmcap)));
+ if (human)
+ stdout_id_ctrl_tnvmcap(ctrl->tnvmcap);
+ printf("unvmcap : %s\n",
+ uint128_t_to_l10n_string(le128_to_cpu(ctrl->unvmcap)));
+ if (human)
+ stdout_id_ctrl_unvmcap(ctrl->unvmcap);
+ printf("rpmbs : %#x\n", le32_to_cpu(ctrl->rpmbs));
+ if (human)
+ stdout_id_ctrl_rpmbs(ctrl->rpmbs);
+ printf("edstt : %d\n", le16_to_cpu(ctrl->edstt));
+ printf("dsto : %d\n", ctrl->dsto);
+ printf("fwug : %d\n", ctrl->fwug);
+ printf("kas : %d\n", le16_to_cpu(ctrl->kas));
+ printf("hctma : %#x\n", le16_to_cpu(ctrl->hctma));
+ if (human)
+ stdout_id_ctrl_hctma(ctrl->hctma);
+ printf("mntmt : %d\n", le16_to_cpu(ctrl->mntmt));
+ if (human)
+ stdout_id_ctrl_mntmt(ctrl->mntmt);
+ printf("mxtmt : %d\n", le16_to_cpu(ctrl->mxtmt));
+ if (human)
+ stdout_id_ctrl_mxtmt(ctrl->mxtmt);
+ printf("sanicap : %#x\n", le32_to_cpu(ctrl->sanicap));
+ if (human)
+ stdout_id_ctrl_sanicap(ctrl->sanicap);
+ printf("hmminds : %u\n", le32_to_cpu(ctrl->hmminds));
+ printf("hmmaxd : %d\n", le16_to_cpu(ctrl->hmmaxd));
+ printf("nsetidmax : %d\n", le16_to_cpu(ctrl->nsetidmax));
+ printf("endgidmax : %d\n", le16_to_cpu(ctrl->endgidmax));
+ printf("anatt : %d\n", ctrl->anatt);
+ printf("anacap : %d\n", ctrl->anacap);
+ if (human)
+ stdout_id_ctrl_anacap(ctrl->anacap);
+ printf("anagrpmax : %u\n", ctrl->anagrpmax);
+ printf("nanagrpid : %u\n", le32_to_cpu(ctrl->nanagrpid));
+ printf("pels : %u\n", le32_to_cpu(ctrl->pels));
+ printf("domainid : %d\n", le16_to_cpu(ctrl->domainid));
+ printf("megcap : %s\n",
+ uint128_t_to_l10n_string(le128_to_cpu(ctrl->megcap)));
+ printf("sqes : %#x\n", ctrl->sqes);
+ if (human)
+ stdout_id_ctrl_sqes(ctrl->sqes);
+ printf("cqes : %#x\n", ctrl->cqes);
+ if (human)
+ stdout_id_ctrl_cqes(ctrl->cqes);
+ printf("maxcmd : %d\n", le16_to_cpu(ctrl->maxcmd));
+ printf("nn : %u\n", le32_to_cpu(ctrl->nn));
+ printf("oncs : %#x\n", le16_to_cpu(ctrl->oncs));
+ if (human)
+ stdout_id_ctrl_oncs(ctrl->oncs);
+ printf("fuses : %#x\n", le16_to_cpu(ctrl->fuses));
+ if (human)
+ stdout_id_ctrl_fuses(ctrl->fuses);
+ printf("fna : %#x\n", ctrl->fna);
+ if (human)
+ stdout_id_ctrl_fna(ctrl->fna);
+ printf("vwc : %#x\n", ctrl->vwc);
+ if (human)
+ stdout_id_ctrl_vwc(ctrl->vwc);
+ printf("awun : %d\n", le16_to_cpu(ctrl->awun));
+ printf("awupf : %d\n", le16_to_cpu(ctrl->awupf));
+ printf("icsvscc : %d\n", ctrl->icsvscc);
+ if (human)
+ stdout_id_ctrl_icsvscc(ctrl->icsvscc);
+ printf("nwpc : %d\n", ctrl->nwpc);
+ if (human)
+ stdout_id_ctrl_nwpc(ctrl->nwpc);
+ printf("acwu : %d\n", le16_to_cpu(ctrl->acwu));
+ printf("ocfs : %#x\n", le16_to_cpu(ctrl->ocfs));
+ if (human)
+ stdout_id_ctrl_ocfs(ctrl->ocfs);
+ printf("sgls : %#x\n", le32_to_cpu(ctrl->sgls));
+ if (human)
+ stdout_id_ctrl_sgls(ctrl->sgls);
+ printf("mnan : %u\n", le32_to_cpu(ctrl->mnan));
+ printf("maxdna : %s\n",
+ uint128_t_to_l10n_string(le128_to_cpu(ctrl->maxdna)));
+ printf("maxcna : %u\n", le32_to_cpu(ctrl->maxcna));
+ printf("oaqd : %u\n", le32_to_cpu(ctrl->oaqd));
+ printf("subnqn : %-.*s\n", (int)sizeof(ctrl->subnqn), ctrl->subnqn);
+ printf("ioccsz : %u\n", le32_to_cpu(ctrl->ioccsz));
+ printf("iorcsz : %u\n", le32_to_cpu(ctrl->iorcsz));
+ printf("icdoff : %d\n", le16_to_cpu(ctrl->icdoff));
+ printf("fcatt : %#x\n", ctrl->fcatt);
+ if (human)
+ stdout_id_ctrl_fcatt(ctrl->fcatt);
+ printf("msdbd : %d\n", ctrl->msdbd);
+ printf("ofcs : %d\n", le16_to_cpu(ctrl->ofcs));
+ if (human)
+ stdout_id_ctrl_ofcs(ctrl->ofcs);
+
+ stdout_id_ctrl_power(ctrl);
+ if (vendor_show)
+ vendor_show(ctrl->vs, NULL);
+ else if (vs) {
+ printf("vs[]:\n");
+ d(ctrl->vs, sizeof(ctrl->vs), 16, 1);
+ }
+}
+
+static void stdout_id_ctrl_nvm(struct nvme_id_ctrl_nvm *ctrl_nvm)
+{
+ printf("NVMe Identify Controller NVM:\n");
+ printf("vsl : %u\n", ctrl_nvm->vsl);
+ printf("wzsl : %u\n", ctrl_nvm->wzsl);
+ printf("wusl : %u\n", ctrl_nvm->wusl);
+ printf("dmrl : %u\n", ctrl_nvm->dmrl);
+ printf("dmrsl : %u\n", le32_to_cpu(ctrl_nvm->dmrsl));
+ printf("dmsl : %"PRIu64"\n", le64_to_cpu(ctrl_nvm->dmsl));
+}
+
+static void stdout_nvm_id_ns_pic(__u8 pic)
+{
+ __u8 rsvd = (pic & 0xF8) >> 3;
+ __u8 stcrs = (pic & 0x3) >> 2;
+ __u8 pic_16bpistm = (pic & 0x2) >> 1;
+ __u8 pic_16bpists = pic & 0x1;
+
+ if (rsvd)
+ printf(" [7:3] : %#x\tReserved\n", rsvd);
+ printf(" [2:2] : %#x\tStorage Tag Check Read Support\n", stcrs);
+ printf(" [1:1] : %#x\t16b Guard Protection Information Storage Tag Mask\n",
+ pic_16bpistm);
+ printf(" [0:0] : %#x\t16b Guard Protection Information Storage Tag Support\n",
+ pic_16bpists);
+ printf("\n");
+}
+
+static void stdout_nvm_id_ns(struct nvme_nvm_id_ns *nvm_ns, unsigned int nsid,
+ struct nvme_id_ns *ns, unsigned int lba_index,
+ bool cap_only)
+{
+ int i, verbose = stdout_print_ops.flags & VERBOSE;
+ __u32 elbaf;
+ int pif, sts;
+ char *in_use = "(in use)";
+
+ if (!cap_only) {
+ printf("NVMe NVM Identify Namespace %d:\n", nsid);
+ printf("lbstm : %#"PRIx64"\n", le64_to_cpu(nvm_ns->lbstm));
+ } else {
+ printf("NVMe NVM Identify Namespace for LBA format[%d]:\n", lba_index);
+ in_use = "";
+ }
+ printf("pic : %#x\n", nvm_ns->pic);
+ if (verbose)
+ stdout_nvm_id_ns_pic(nvm_ns->pic);
+
+ for (i = 0; i <= ns->nlbaf + ns->nulbaf; i++) {
+ elbaf = le32_to_cpu(nvm_ns->elbaf[i]);
+ pif = (elbaf >> 7) & 0x3;
+ sts = elbaf & 0x7f;
+ if (verbose)
+ printf("Extended LBA Format %2d : Protection Information Format: "
+ "%s(%d) - Storage Tag Size (MSB): %-2d %s\n",
+ i, pif == 3 ? "Reserved" :
+ pif == 2 ? "64b Guard" :
+ pif == 1 ? "32b Guard" : "16b Guard",
+ pif, sts, i == (ns->flbas & 0xf) ? in_use : "");
+ else
+ printf("elbaf %2d : pif:%d sts:%-2d %s\n", i,
+ pif, sts, i == (ns->flbas & 0xf) ? in_use : "");
+ }
+}
+
+static void stdout_zns_id_ctrl(struct nvme_zns_id_ctrl *ctrl)
+{
+ printf("NVMe ZNS Identify Controller:\n");
+ printf("zasl : %u\n", ctrl->zasl);
+}
+
+static void show_nvme_id_ns_zoned_zoc(__le16 ns_zoc)
+{
+ __u16 zoc = le16_to_cpu(ns_zoc);
+ __u8 rsvd = (zoc & 0xfffc) >> 2;
+ __u8 ze = (zoc & 0x2) >> 1;
+ __u8 vzc = zoc & 0x1;
+ if (rsvd)
+ printf(" [15:2] : %#x\tReserved\n", rsvd);
+ printf(" [1:1] : %#x\t Zone Active Excursions: %s\n",
+ ze, ze ? "Yes (Host support required)" : "No");
+ printf(" [0:0] : %#x\t Variable Zone Capacity: %s\n",
+ vzc, vzc ? "Yes (Host support required)" : "No");
+ printf("\n");
+}
+
+static void show_nvme_id_ns_zoned_ozcs(__le16 ns_ozcs)
+{
+ __u16 ozcs = le16_to_cpu(ns_ozcs);
+ __u8 rsvd = (ozcs & 0xfffc) >> 2;
+ __u8 razb = ozcs & 0x1;
+ __u8 zrwasup = (ozcs & 0x2) >> 1;
+
+ if (rsvd)
+ printf(" [15:1] : %#x\tReserved\n", rsvd);
+ printf(" [0:0] : %#x\t Read Across Zone Boundaries: %s\n",
+ razb, razb ? "Yes" : "No");
+ printf(" [1:1] : %#x\t Zone Random Write Area: %s\n", zrwasup,
+ zrwasup ? "Yes" : "No");
+}
+
+static void stdout_zns_id_ns_recommended_limit(__le32 ns_rl, int human,
+ const char *target_limit)
+{
+ unsigned int recommended_limit = le32_to_cpu(ns_rl);
+ if (!recommended_limit && human)
+ printf("%s : Not Reported\n", target_limit);
+ else
+ printf("%s : %u\n", target_limit, recommended_limit);
+}
+
+static void stdout_zns_id_ns_zrwacap(__u8 zrwacap)
+{
+ __u8 rsvd = (zrwacap & 0xfe) >> 1;
+ __u8 expflushsup = zrwacap & 0x1;
+
+ if (rsvd)
+ printf(" [7:1] : %#x\tReserved\n", rsvd);
+ printf(" [0:0] : %#x\t Explicit ZRWA Flush Operations: %s\n",
+ expflushsup, expflushsup ? "Yes" : "No");
+}
+
+static void stdout_zns_id_ns(struct nvme_zns_id_ns *ns,
+ struct nvme_id_ns *id_ns)
+{
+ int human = stdout_print_ops.flags & VERBOSE, vs = stdout_print_ops.flags & VS;
+ uint8_t lbaf;
+ int i;
+
+ nvme_id_ns_flbas_to_lbaf_inuse(id_ns->flbas, &lbaf);
+
+ printf("ZNS Command Set Identify Namespace:\n");
+
+ if (human) {
+ printf("zoc : %u\tZone Operation Characteristics\n", le16_to_cpu(ns->zoc));
+ show_nvme_id_ns_zoned_zoc(ns->zoc);
+ } else {
+ printf("zoc : %u\n", le16_to_cpu(ns->zoc));
+ }
+
+ if (human) {
+ printf("ozcs : %u\tOptional Zoned Command Support\n", le16_to_cpu(ns->ozcs));
+ show_nvme_id_ns_zoned_ozcs(ns->ozcs);
+ } else {
+ printf("ozcs : %u\n", le16_to_cpu(ns->ozcs));
+ }
+
+ if (human) {
+ if (ns->mar == 0xffffffff) {
+ printf("mar : No Active Resource Limit\n");
+ } else {
+ printf("mar : %u\tActive Resources\n", le32_to_cpu(ns->mar) + 1);
+ }
+ } else {
+ printf("mar : %#x\n", le32_to_cpu(ns->mar));
+ }
+
+ if (human) {
+ if (ns->mor == 0xffffffff) {
+ printf("mor : No Open Resource Limit\n");
+ } else {
+ printf("mor : %u\tOpen Resources\n", le32_to_cpu(ns->mor) + 1);
+ }
+ } else {
+ printf("mor : %#x\n", le32_to_cpu(ns->mor));
+ }
+
+ stdout_zns_id_ns_recommended_limit(ns->rrl, human, "rrl ");
+ stdout_zns_id_ns_recommended_limit(ns->frl, human, "frl ");
+ stdout_zns_id_ns_recommended_limit(ns->rrl1, human, "rrl1");
+ stdout_zns_id_ns_recommended_limit(ns->rrl2, human, "rrl2");
+ stdout_zns_id_ns_recommended_limit(ns->rrl3, human, "rrl3");
+ stdout_zns_id_ns_recommended_limit(ns->frl, human, "frl1");
+ stdout_zns_id_ns_recommended_limit(ns->frl, human, "frl2");
+ stdout_zns_id_ns_recommended_limit(ns->frl, human, "frl3");
+
+ printf("numzrwa : %#x\n", le32_to_cpu(ns->numzrwa));
+ printf("zrwafg : %u\n", le16_to_cpu(ns->zrwafg));
+ printf("zrwasz : %u\n", le16_to_cpu(ns->zrwasz));
+ if (human) {
+ printf("zrwacap : %u\tZone Random Write Area Capability\n", ns->zrwacap);
+ stdout_zns_id_ns_zrwacap(ns->zrwacap);
+ } else {
+ printf("zrwacap : %u\n", ns->zrwacap);
+ }
+
+ for (i = 0; i <= id_ns->nlbaf; i++){
+ if (human)
+ printf("LBA Format Extension %2d : Zone Size: 0x%"PRIx64" LBAs - "
+ "Zone Descriptor Extension Size: %-1d bytes%s\n",
+ i, le64_to_cpu(ns->lbafe[i].zsze), ns->lbafe[i].zdes << 6,
+ i == lbaf ? " (in use)" : "");
+ else
+ printf("lbafe %2d: zsze:0x%"PRIx64" zdes:%u%s\n", i,
+ (uint64_t)le64_to_cpu(ns->lbafe[i].zsze),
+ ns->lbafe[i].zdes, i == lbaf ? " (in use)" : "");
+ }
+
+ if (vs) {
+ printf("vs[] :\n");
+ d(ns->vs, sizeof(ns->vs), 16, 1);
+ }
+}
+
+static void stdout_list_ns(struct nvme_ns_list *ns_list)
+{
+ int i;
+
+ for (i = 0; i < 1024; i++) {
+ if (ns_list->ns[i])
+ printf("[%4u]:%#x\n", i, le32_to_cpu(ns_list->ns[i]));
+ }
+}
+
+static void stdout_zns_start_zone_list(__u64 nr_zones, struct json_object **zone_list)
+{
+ printf("nr_zones: %"PRIu64"\n", (uint64_t)le64_to_cpu(nr_zones));
+}
+
+static void stdout_zns_changed(struct nvme_zns_changed_zone_log *log)
+{
+ uint16_t nrzid;
+ int i;
+
+ nrzid = le16_to_cpu(log->nrzid);
+ printf("NVMe Changed Zone List:\n");
+
+ if (nrzid == 0xFFFF) {
+ printf("Too many zones have changed to fit into the log. Use report zones for changes.\n");
+ return;
+ }
+
+ printf("nrzid: %u\n", nrzid);
+ for (i = 0; i < nrzid; i++)
+ printf("zid %03d: %"PRIu64"\n", i, (uint64_t)le64_to_cpu(log->zid[i]));
+}
+
+static void stdout_zns_report_zone_attributes(__u8 za, __u8 zai)
+{
+ const char *const recommended_limit[4] = {"","1","2","3"};
+ printf("Attrs: Zone Descriptor Extension is %sVaild\n",
+ (za & NVME_ZNS_ZA_ZDEV)? "" : "Not ");
+ if(za & NVME_ZNS_ZA_RZR) {
+ printf(" Reset Zone Recommended with Reset Recommended Limit%s\n",
+ recommended_limit[(zai&0xd)>>2]);
+ }
+ if (za & NVME_ZNS_ZA_FZR) {
+ printf(" Finish Zone Recommended with Finish Recommended Limit%s\n",
+ recommended_limit[zai&0x3]);
+ }
+ if (za & NVME_ZNS_ZA_ZFC) {
+ printf(" Zone Finished by Controller\n");
+ }
+}
+
+static void stdout_zns_report_zones(void *report, __u32 descs,
+ __u8 ext_size, __u32 report_size,
+ struct json_object *zone_list)
+{
+ struct nvme_zone_report *r = report;
+ struct nvme_zns_desc *desc;
+ int i, verbose = stdout_print_ops.flags & VERBOSE;
+ __u64 nr_zones = le64_to_cpu(r->nr_zones);
+
+ if (nr_zones < descs)
+ descs = nr_zones;
+
+ for (i = 0; i < descs; i++) {
+ desc = (struct nvme_zns_desc *)
+ (report + sizeof(*r) + i * (sizeof(*desc) + ext_size));
+ if(verbose) {
+ printf("SLBA: %#-10"PRIx64" WP: %#-10"PRIx64" Cap: %#-10"PRIx64" State: %-12s Type: %-14s\n",
+ (uint64_t)le64_to_cpu(desc->zslba), (uint64_t)le64_to_cpu(desc->wp),
+ (uint64_t)le64_to_cpu(desc->zcap), nvme_zone_state_to_string(desc->zs >> 4),
+ nvme_zone_type_to_string(desc->zt));
+ stdout_zns_report_zone_attributes(desc->za, desc->zai);
+ } else {
+ printf("SLBA: %#-10"PRIx64" WP: %#-10"PRIx64" Cap: %#-10"PRIx64" State: %#-4x Type: %#-4x Attrs: %#-4x AttrsInfo: %#-4x\n",
+ (uint64_t)le64_to_cpu(desc->zslba), (uint64_t)le64_to_cpu(desc->wp),
+ (uint64_t)le64_to_cpu(desc->zcap), desc->zs, desc->zt,
+ desc->za, desc->zai);
+ }
+
+ if (ext_size && (desc->za & NVME_ZNS_ZA_ZDEV)) {
+ printf("Extension Data: ");
+ d((unsigned char *)desc + sizeof(*desc), ext_size, 16, 1);
+ printf("..\n");
+ }
+ }
+}
+
+static void stdout_list_ctrl(struct nvme_ctrl_list *ctrl_list)
+{
+ __u16 num = le16_to_cpu(ctrl_list->num);
+ int i;
+
+ printf("num of ctrls present: %u\n", num);
+ for (i = 0; i < min(num, 2047); i++)
+ printf("[%4u]:%#x\n", i, le16_to_cpu(ctrl_list->identifier[i]));
+}
+
+static void stdout_id_nvmset(struct nvme_id_nvmset_list *nvmset,
+ unsigned int nvmset_id)
+{
+ int i;
+
+ printf("NVME Identify NVM Set List %d:\n", nvmset_id);
+ printf("nid : %d\n", nvmset->nid);
+ printf(".................\n");
+ for (i = 0; i < nvmset->nid; i++) {
+ printf(" NVM Set Attribute Entry[%2d]\n", i);
+ printf(".................\n");
+ printf("nvmset_id : %d\n",
+ le16_to_cpu(nvmset->ent[i].endgid));
+ printf("endurance_group_id : %d\n",
+ le16_to_cpu(nvmset->ent[i].endgid));
+ printf("random_4k_read_typical : %u\n",
+ le32_to_cpu(nvmset->ent[i].rr4kt));
+ printf("optimal_write_size : %u\n",
+ le32_to_cpu(nvmset->ent[i].ows));
+ printf("total_nvmset_cap : %s\n",
+ uint128_t_to_l10n_string(
+ le128_to_cpu(nvmset->ent[i].tnvmsetcap)));
+ printf("unalloc_nvmset_cap : %s\n",
+ uint128_t_to_l10n_string(
+ le128_to_cpu(nvmset->ent[i].unvmsetcap)));
+ printf(".................\n");
+ }
+}
+
+static void stdout_primary_ctrl_caps_crt(__u8 crt)
+{
+ __u8 rsvd = (crt & 0xFC) >> 2;
+ __u8 vi = (crt & 0x2) >> 1;
+ __u8 vq = crt & 0x1;
+
+ if (rsvd)
+ printf(" [7:2] : %#x\tReserved\n", rsvd);
+ printf(" [1:1] %#x\tVI Resources are %ssupported\n", vi, vi ? "" : "not ");
+ printf(" [0:0] %#x\tVQ Resources are %ssupported\n", vq, vq ? "" : "not ");
+}
+
+static void stdout_primary_ctrl_cap(const struct nvme_primary_ctrl_cap *caps)
+{
+ int human = stdout_print_ops.flags & VERBOSE;
+
+ printf("NVME Identify Primary Controller Capabilities:\n");
+ printf("cntlid : %#x\n", le16_to_cpu(caps->cntlid));
+ printf("portid : %#x\n", le16_to_cpu(caps->portid));
+ printf("crt : %#x\n", caps->crt);
+ if (human)
+ stdout_primary_ctrl_caps_crt(caps->crt);
+ printf("vqfrt : %u\n", le32_to_cpu(caps->vqfrt));
+ printf("vqrfa : %u\n", le32_to_cpu(caps->vqrfa));
+ printf("vqrfap : %d\n", le16_to_cpu(caps->vqrfap));
+ printf("vqprt : %d\n", le16_to_cpu(caps->vqprt));
+ printf("vqfrsm : %d\n", le16_to_cpu(caps->vqfrsm));
+ printf("vqgran : %d\n", le16_to_cpu(caps->vqgran));
+ printf("vifrt : %u\n", le32_to_cpu(caps->vifrt));
+ printf("virfa : %u\n", le32_to_cpu(caps->virfa));
+ printf("virfap : %d\n", le16_to_cpu(caps->virfap));
+ printf("viprt : %d\n", le16_to_cpu(caps->viprt));
+ printf("vifrsm : %d\n", le16_to_cpu(caps->vifrsm));
+ printf("vigran : %d\n", le16_to_cpu(caps->vigran));
+}
+
+static void stdout_list_secondary_ctrl(const struct nvme_secondary_ctrl_list *sc_list,
+ __u32 count)
+{
+ const struct nvme_secondary_ctrl *sc_entry =
+ &sc_list->sc_entry[0];
+ static const char * const state_desc[] = { "Offline", "Online" };
+
+ __u16 num = sc_list->num;
+ __u32 entries = min(num, count);
+ int i;
+
+ printf("Identify Secondary Controller List:\n");
+ printf(" NUMID : Number of Identifiers : %d\n", num);
+
+ for (i = 0; i < entries; i++) {
+ printf(" SCEntry[%-3d]:\n", i);
+ printf("................\n");
+ printf(" SCID : Secondary Controller Identifier : 0x%.04x\n",
+ le16_to_cpu(sc_entry[i].scid));
+ printf(" PCID : Primary Controller Identifier : 0x%.04x\n",
+ le16_to_cpu(sc_entry[i].pcid));
+ printf(" SCS : Secondary Controller State : 0x%.04x (%s)\n",
+ sc_entry[i].scs,
+ state_desc[sc_entry[i].scs & 0x1]);
+ printf(" VFN : Virtual Function Number : 0x%.04x\n",
+ le16_to_cpu(sc_entry[i].vfn));
+ printf(" NVQ : Num VQ Flex Resources Assigned : 0x%.04x\n",
+ le16_to_cpu(sc_entry[i].nvq));
+ printf(" NVI : Num VI Flex Resources Assigned : 0x%.04x\n",
+ le16_to_cpu(sc_entry[i].nvi));
+ }
+}
+
+static void stdout_id_ns_granularity_list(const struct nvme_id_ns_granularity_list *glist)
+{
+ int i;
+
+ printf("Identify Namespace Granularity List:\n");
+ printf(" ATTR : Namespace Granularity Attributes: 0x%x\n",
+ glist->attributes);
+ printf(" NUMD : Number of Descriptors : %d\n",
+ glist->num_descriptors);
+
+ /* Number of Descriptors is a 0's based value */
+ for (i = 0; i <= glist->num_descriptors; i++) {
+ printf("\n Entry[%2d] :\n", i);
+ printf("................\n");
+ printf(" NSG : Namespace Size Granularity : 0x%"PRIx64"\n",
+ le64_to_cpu(glist->entry[i].nszegran));
+ printf(" NCG : Namespace Capacity Granularity : 0x%"PRIx64"\n",
+ le64_to_cpu(glist->entry[i].ncapgran));
+ }
+}
+
+static void stdout_id_uuid_list(const struct nvme_id_uuid_list *uuid_list)
+{
+ int i, human = stdout_print_ops.flags & VERBOSE;
+
+ printf("NVME Identify UUID:\n");
+
+ for (i = 0; i < NVME_ID_UUID_LIST_MAX; i++) {
+ __u8 uuid[NVME_UUID_LEN];
+ char *association = "";
+ uint8_t identifier_association = uuid_list->entry[i].header & 0x3;
+ /* The list is terminated by a zero UUID value */
+ if (memcmp(uuid_list->entry[i].uuid, zero_uuid, NVME_UUID_LEN) == 0)
+ break;
+ memcpy(&uuid, uuid_list->entry[i].uuid, NVME_UUID_LEN);
+ if (human) {
+ switch (identifier_association) {
+ case 0x0:
+ association = "No association reported";
+ break;
+ case 0x1:
+ association = "associated with PCI Vendor ID";
+ break;
+ case 0x2:
+ association = "associated with PCI Subsystem Vendor ID";
+ break;
+ default:
+ association = "Reserved";
+ break;
+ }
+ }
+ printf(" Entry[%3d]\n", i+1);
+ printf(".................\n");
+ printf("association : 0x%x %s\n", identifier_association, association);
+ printf("UUID : %s", util_uuid_to_string(uuid));
+ if (memcmp(uuid_list->entry[i].uuid, invalid_uuid,
+ sizeof(zero_uuid)) == 0)
+ printf(" (Invalid UUID)");
+ printf("\n.................\n");
+ }
+}
+
+static void stdout_id_domain_list(struct nvme_id_domain_list *id_dom)
+{
+ int i;
+
+ printf("Number of Domain Entries: %u\n", id_dom->num);
+ for (i = 0; i < id_dom->num; i++) {
+ printf("Domain Id for Attr Entry[%u]: %u\n", i,
+ le16_to_cpu(id_dom->domain_attr[i].dom_id));
+ printf("Domain Capacity for Attr Entry[%u]: %s\n", i,
+ uint128_t_to_l10n_string(
+ le128_to_cpu(id_dom->domain_attr[i].dom_cap)));
+ printf("Unallocated Domain Capacity for Attr Entry[%u]: %s\n", i,
+ uint128_t_to_l10n_string(
+ le128_to_cpu(id_dom->domain_attr[i].unalloc_dom_cap)));
+ printf("Max Endurance Group Domain Capacity for Attr Entry[%u]: %s\n", i,
+ uint128_t_to_l10n_string(
+ le128_to_cpu(id_dom->domain_attr[i].max_egrp_dom_cap)));
+ }
+}
+
+static void stdout_endurance_group_list(struct nvme_id_endurance_group_list *endgrp_list)
+{
+ int i;
+ __u16 num = le16_to_cpu(endgrp_list->num);
+
+ printf("num of endurance group ids: %u\n", num);
+ for (i = 0; i < min(num, 2047); i++) {
+ printf("[%4u]:%#x\n", i, le16_to_cpu(endgrp_list->identifier[i]));
+ }
+}
+
+static void stdout_id_iocs(struct nvme_id_iocs *iocs)
+{
+ __u16 i;
+
+ for (i = 0; i < ARRAY_SIZE(iocs->iocsc); i++)
+ if (iocs->iocsc[i])
+ printf("I/O Command Set Combination[%u]:%"PRIx64"\n", i,
+ (uint64_t)le64_to_cpu(iocs->iocsc[i]));
+}
+
+static void stdout_error_log(struct nvme_error_log_page *err_log, int entries,
+ const char *devname)
+{
+ int i;
+
+ printf("Error Log Entries for device:%s entries:%d\n", devname,
+ entries);
+ printf(".................\n");
+ for (i = 0; i < entries; i++) {
+ __u16 status = le16_to_cpu(err_log[i].status_field) >> 0x1;
+
+ printf(" Entry[%2d] \n", i);
+ printf(".................\n");
+ printf("error_count : %"PRIu64"\n",
+ le64_to_cpu(err_log[i].error_count));
+ printf("sqid : %d\n", err_log[i].sqid);
+ printf("cmdid : %#x\n", err_log[i].cmdid);
+ printf("status_field : %#x(%s)\n", status,
+ nvme_status_to_string(status, false));
+ printf("phase_tag : %#x\n",
+ le16_to_cpu(err_log[i].status_field & 0x1));
+ printf("parm_err_loc : %#x\n",
+ err_log[i].parm_error_location);
+ printf("lba : %#"PRIx64"\n",
+ le64_to_cpu(err_log[i].lba));
+ printf("nsid : %#x\n", err_log[i].nsid);
+ printf("vs : %d\n", err_log[i].vs);
+ printf("trtype : %s\n",
+ nvme_trtype_to_string(err_log[i].trtype));
+ printf("csi : %d\n", err_log[i].csi);
+ printf("opcode : %#x\n", err_log[i].opcode);
+ printf("cs : %#"PRIx64"\n",
+ le64_to_cpu(err_log[i].cs));
+ printf("trtype_spec_info: %#x\n", err_log[i].trtype_spec_info);
+ printf("log_page_version: %d\n", err_log[i].log_page_version);
+ printf(".................\n");
+ }
+}
+
+static void stdout_resv_report(struct nvme_resv_status *status, int bytes,
+ bool eds)
+{
+ int i, j, regctl, entries;
+
+ regctl = status->regctl[0] | (status->regctl[1] << 8);
+
+ printf("\nNVME Reservation status:\n\n");
+ printf("gen : %u\n", le32_to_cpu(status->gen));
+ printf("rtype : %d\n", status->rtype);
+ printf("regctl : %d\n", regctl);
+ printf("ptpls : %d\n", status->ptpls);
+
+ /* check Extended Data Structure bit */
+ if (!eds) {
+ /*
+ * if status buffer was too small, don't loop past the end of
+ * the buffer
+ */
+ entries = (bytes - 24) / 24;
+ if (entries < regctl)
+ regctl = entries;
+
+ for (i = 0; i < regctl; i++) {
+ printf("regctl[%d] :\n", i);
+ printf(" cntlid : %x\n",
+ le16_to_cpu(status->regctl_ds[i].cntlid));
+ printf(" rcsts : %x\n",
+ status->regctl_ds[i].rcsts);
+ printf(" hostid : %"PRIx64"\n",
+ le64_to_cpu(status->regctl_ds[i].hostid));
+ printf(" rkey : %"PRIx64"\n",
+ le64_to_cpu(status->regctl_ds[i].rkey));
+ }
+ } else {
+ /* if status buffer was too small, don't loop past the end of the buffer */
+ entries = (bytes - 64) / 64;
+ if (entries < regctl)
+ regctl = entries;
+
+ for (i = 0; i < regctl; i++) {
+ printf("regctlext[%d] :\n", i);
+ printf(" cntlid : %x\n",
+ le16_to_cpu(status->regctl_eds[i].cntlid));
+ printf(" rcsts : %x\n",
+ status->regctl_eds[i].rcsts);
+ printf(" rkey : %"PRIx64"\n",
+ le64_to_cpu(status->regctl_eds[i].rkey));
+ printf(" hostid : ");
+ for (j = 0; j < 16; j++)
+ printf("%02x",
+ status->regctl_eds[i].hostid[j]);
+ printf("\n");
+ }
+ }
+ printf("\n");
+}
+
+static void stdout_fw_log(struct nvme_firmware_slot *fw_log,
+ const char *devname)
+{
+ int i;
+ __le64 *frs;
+
+ printf("Firmware Log for device:%s\n", devname);
+ printf("afi : %#x\n", fw_log->afi);
+ for (i = 0; i < 7; i++) {
+ if (fw_log->frs[i][0]) {
+ frs = (__le64 *)&fw_log->frs[i];
+ printf("frs%d : %#016"PRIx64" (%s)\n", i + 1,
+ le64_to_cpu(*frs),
+ util_fw_to_string(fw_log->frs[i]));
+ }
+ }
+}
+
+static void stdout_changed_ns_list_log(struct nvme_ns_list *log,
+ const char *devname)
+{
+ __u32 nsid;
+ int i;
+
+ if (log->ns[0] != cpu_to_le32(NVME_NSID_ALL)) {
+ for (i = 0; i < NVME_ID_NS_LIST_MAX; i++) {
+ nsid = le32_to_cpu(log->ns[i]);
+ if (nsid == 0)
+ break;
+
+ printf("[%4u]:%#x\n", i, nsid);
+ }
+ } else
+ printf("more than %d ns changed\n",
+ NVME_ID_NS_LIST_MAX);
+}
+
+static void stdout_effects_log_human(FILE *stream, __u32 effect)
+{
+ const char *set = "+";
+ const char *clr = "-";
+
+ fprintf(stream, " CSUPP+");
+ fprintf(stream, " LBCC%s", (effect & NVME_CMD_EFFECTS_LBCC) ? set : clr);
+ fprintf(stream, " NCC%s", (effect & NVME_CMD_EFFECTS_NCC) ? set : clr);
+ fprintf(stream, " NIC%s", (effect & NVME_CMD_EFFECTS_NIC) ? set : clr);
+ fprintf(stream, " CCC%s", (effect & NVME_CMD_EFFECTS_CCC) ? set : clr);
+ fprintf(stream, " USS%s", (effect & NVME_CMD_EFFECTS_UUID_SEL) ? set : clr);
+
+ if ((effect & NVME_CMD_EFFECTS_CSE_MASK) >> 16 == 0)
+ fprintf(stream, " No command restriction\n");
+ else if ((effect & NVME_CMD_EFFECTS_CSE_MASK) >> 16 == 1)
+ fprintf(stream, " No other command for same namespace\n");
+ else if ((effect & NVME_CMD_EFFECTS_CSE_MASK) >> 16 == 2)
+ fprintf(stream, " No other command for any namespace\n");
+ else
+ fprintf(stream, " Reserved CSE\n");
+}
+
+static void stdout_effects_entry(FILE* stream, int admin, int index,
+ __le32 entry, unsigned int human)
+{
+ __u32 effect;
+ char *format_string;
+
+ format_string = admin ? "ACS%-6d[%-32s] %08x" : "IOCS%-5d[%-32s] %08x";
+
+ effect = le32_to_cpu(entry);
+ if (effect & NVME_CMD_EFFECTS_CSUPP) {
+ fprintf(stream, format_string, index, nvme_cmd_to_string(admin, index),
+ effect);
+ if (human)
+ stdout_effects_log_human(stream, effect);
+ else
+ fprintf(stream, "\n");
+ }
+}
+
+static void stdout_effects_log_segment(int admin, int a, int b,
+ struct nvme_cmd_effects_log *effects,
+ char* header, int human)
+{
+ FILE *stream;
+ char *stream_location;
+ size_t stream_size;
+
+ stream = open_memstream(&stream_location, &stream_size);
+ if (!stream) {
+ perror("Failed to open stream");
+ return;
+ }
+
+ for (int i = a; i < b; i++) {
+ if (admin) {
+ stdout_effects_entry(stream, admin, i, effects->acs[i], human);
+ }
+ else {
+ stdout_effects_entry(stream, admin, i,
+ effects->iocs[i], human);
+ }
+ }
+
+ fclose(stream);
+
+ if (stream_size && header) {
+ printf("%s\n", header);
+ fwrite(stream_location, stream_size, 1, stdout);
+ printf("\n");
+ }
+
+ free(stream_location);
+}
+
+static void stdout_effects_log_page(enum nvme_csi csi,
+ struct nvme_cmd_effects_log *effects)
+{
+ int human = stdout_print_ops.flags & VERBOSE;
+
+ switch (csi) {
+ case NVME_CSI_NVM:
+ printf("NVM Command Set Log Page\n");
+ printf("%-.80s\n", dash);
+ break;
+ case NVME_CSI_ZNS:
+ printf("ZNS Command Set Log Page\n");
+ printf("%-.80s\n", dash);
+ break;
+ default:
+ printf("Unknown Command Set Log Page\n");
+ printf("%-.80s\n", dash);
+ break;
+ }
+
+ stdout_effects_log_segment(1, 0, 0xbf, effects, "Admin Commands", human);
+ stdout_effects_log_segment(1, 0xc0, 0xff, effects, "Vendor Specific Admin Commands", human);
+ stdout_effects_log_segment(0, 0, 0x80, effects, "I/O Commands", human);
+ stdout_effects_log_segment(0, 0x80, 0x100, effects, "Vendor Specific I/O Commands", human);
+}
+
+static void stdout_effects_log_pages(struct list_head *list)
+{
+ nvme_effects_log_node_t *node;
+
+ list_for_each(list, node, node) {
+ stdout_effects_log_page(node->csi, &node->effects);
+ }
+}
+
+static void stdout_support_log_human(__u32 support, __u8 lid)
+{
+ const char *set = "supported";
+ const char *clr = "not supported";
+
+ printf(" LSUPP is %s\n", (support & 0x1) ? set : clr);
+ printf(" IOS is %s\n", ((support >> 0x1) & 0x1) ? set : clr);
+ if (lid == NVME_LOG_LID_PERSISTENT_EVENT) {
+ printf(" Establish Context and Read 512 Bytes of Header is %s\n",
+ ((support >> 0x16) & 0x1) ? set : clr);
+ }
+}
+
+static void stdout_supported_log(struct nvme_supported_log_pages *support_log,
+ const char *devname)
+{
+ int lid, human = stdout_print_ops.flags& VERBOSE;
+ __u32 support = 0;
+
+ printf("Support Log Pages Details for %s:\n", devname);
+ for (lid = 0; lid < 256; lid++) {
+ support = le32_to_cpu(support_log->lid_support[lid]);
+ if (support & 0x1) {
+ printf("LID 0x%x - %s\n", lid, nvme_log_to_string(lid));
+ if (human)
+ stdout_support_log_human(support, lid);
+ }
+ }
+}
+
+static void stdout_endurance_log(struct nvme_endurance_group_log *endurance_log, __u16 group_id,
+ const char *devname)
+{
+ printf("Endurance Group Log for NVME device:%s Group ID:%x\n", devname, group_id);
+ printf("critical_warning : %u\n", endurance_log->critical_warning);
+ printf("endurance_group_features: %u\n", endurance_log->endurance_group_features);
+ printf("avl_spare : %u\n", endurance_log->avl_spare);
+ printf("avl_spare_threshold : %u\n", endurance_log->avl_spare_threshold);
+ printf("percent_used : %u%%\n", endurance_log->percent_used);
+ printf("domain_identifier : %u\n", endurance_log->domain_identifier);
+ printf("endurance_estimate : %s\n",
+ uint128_t_to_l10n_string(le128_to_cpu(endurance_log->endurance_estimate)));
+ printf("data_units_read : %s\n",
+ uint128_t_to_l10n_string(le128_to_cpu(endurance_log->data_units_read)));
+ printf("data_units_written : %s\n",
+ uint128_t_to_l10n_string(le128_to_cpu(endurance_log->data_units_written)));
+ printf("media_units_written : %s\n",
+ uint128_t_to_l10n_string(le128_to_cpu(endurance_log->media_units_written)));
+ printf("host_read_cmds : %s\n",
+ uint128_t_to_l10n_string(le128_to_cpu(endurance_log->host_read_cmds)));
+ printf("host_write_cmds : %s\n",
+ uint128_t_to_l10n_string(le128_to_cpu(endurance_log->host_write_cmds)));
+ printf("media_data_integrity_err: %s\n",
+ uint128_t_to_l10n_string(le128_to_cpu(endurance_log->media_data_integrity_err)));
+ printf("num_err_info_log_entries: %s\n",
+ uint128_t_to_l10n_string(le128_to_cpu(endurance_log->num_err_info_log_entries)));
+ printf("total_end_grp_cap : %s\n",
+ uint128_t_to_l10n_string(le128_to_cpu(endurance_log->total_end_grp_cap)));
+ printf("unalloc_end_grp_cap : %s\n",
+ uint128_t_to_l10n_string(le128_to_cpu(endurance_log->unalloc_end_grp_cap)));
+}
+
+static void stdout_smart_log(struct nvme_smart_log *smart, unsigned int nsid,
+ const char *devname)
+{
+ __u16 temperature = smart->temperature[1] << 8 | smart->temperature[0];
+ int i;
+ bool human = stdout_print_ops.flags & VERBOSE;
+
+ printf("Smart Log for NVME device:%s namespace-id:%x\n", devname, nsid);
+ printf("critical_warning : %#x\n",
+ smart->critical_warning);
+
+ if (human) {
+ printf(" Available Spare[0] : %d\n", smart->critical_warning & 0x01);
+ printf(" Temp. Threshold[1] : %d\n", (smart->critical_warning & 0x02) >> 1);
+ printf(" NVM subsystem Reliability[2] : %d\n", (smart->critical_warning & 0x04) >> 2);
+ printf(" Read-only[3] : %d\n", (smart->critical_warning & 0x08) >> 3);
+ printf(" Volatile mem. backup failed[4] : %d\n", (smart->critical_warning & 0x10) >> 4);
+ printf(" Persistent Mem. RO[5] : %d\n", (smart->critical_warning & 0x20) >> 5);
+ }
+
+ printf("temperature : %ld °C (%u K)\n",
+ kelvin_to_celsius(temperature), temperature);
+ printf("available_spare : %u%%\n",
+ smart->avail_spare);
+ printf("available_spare_threshold : %u%%\n",
+ smart->spare_thresh);
+ printf("percentage_used : %u%%\n",
+ smart->percent_used);
+ printf("endurance group critical warning summary: %#x\n",
+ smart->endu_grp_crit_warn_sumry);
+ printf("Data Units Read : %s (%s)\n",
+ uint128_t_to_l10n_string(le128_to_cpu(smart->data_units_read)),
+ uint128_t_to_si_string(le128_to_cpu(smart->data_units_read),
+ 1000 * 512));
+ printf("Data Units Written : %s (%s)\n",
+ uint128_t_to_l10n_string(le128_to_cpu(smart->data_units_written)),
+ uint128_t_to_si_string(le128_to_cpu(smart->data_units_written),
+ 1000 * 512));
+ printf("host_read_commands : %s\n",
+ uint128_t_to_l10n_string(le128_to_cpu(smart->host_reads)));
+ printf("host_write_commands : %s\n",
+ uint128_t_to_l10n_string(le128_to_cpu(smart->host_writes)));
+ printf("controller_busy_time : %s\n",
+ uint128_t_to_l10n_string(le128_to_cpu(smart->ctrl_busy_time)));
+ printf("power_cycles : %s\n",
+ uint128_t_to_l10n_string(le128_to_cpu(smart->power_cycles)));
+ printf("power_on_hours : %s\n",
+ uint128_t_to_l10n_string(le128_to_cpu(smart->power_on_hours)));
+ printf("unsafe_shutdowns : %s\n",
+ uint128_t_to_l10n_string(le128_to_cpu(smart->unsafe_shutdowns)));
+ printf("media_errors : %s\n",
+ uint128_t_to_l10n_string(le128_to_cpu(smart->media_errors)));
+ printf("num_err_log_entries : %s\n",
+ uint128_t_to_l10n_string(le128_to_cpu(smart->num_err_log_entries)));
+ printf("Warning Temperature Time : %u\n",
+ le32_to_cpu(smart->warning_temp_time));
+ printf("Critical Composite Temperature Time : %u\n",
+ le32_to_cpu(smart->critical_comp_time));
+ for (i = 0; i < 8; i++) {
+ __s32 temp = le16_to_cpu(smart->temp_sensor[i]);
+
+ if (temp == 0)
+ continue;
+ printf("Temperature Sensor %d : %ld °C (%u K)\n",
+ i + 1, kelvin_to_celsius(temp), temp);
+ }
+ printf("Thermal Management T1 Trans Count : %u\n",
+ le32_to_cpu(smart->thm_temp1_trans_count));
+ printf("Thermal Management T2 Trans Count : %u\n",
+ le32_to_cpu(smart->thm_temp2_trans_count));
+ printf("Thermal Management T1 Total Time : %u\n",
+ le32_to_cpu(smart->thm_temp1_total_time));
+ printf("Thermal Management T2 Total Time : %u\n",
+ le32_to_cpu(smart->thm_temp2_total_time));
+}
+
+static void stdout_ana_log(struct nvme_ana_log *ana_log, const char *devname,
+ size_t len)
+{
+ int offset = sizeof(struct nvme_ana_log);
+ struct nvme_ana_log *hdr = ana_log;
+ struct nvme_ana_group_desc *desc;
+ size_t nsid_buf_size;
+ void *base = ana_log;
+ __u32 nr_nsids;
+ int i, j;
+
+ printf("Asymmetric Namespace Access Log for NVMe device: %s\n",
+ devname);
+ printf("ANA LOG HEADER :-\n");
+ printf("chgcnt : %"PRIu64"\n",
+ le64_to_cpu(hdr->chgcnt));
+ printf("ngrps : %u\n", le16_to_cpu(hdr->ngrps));
+ printf("ANA Log Desc :-\n");
+
+ for (i = 0; i < le16_to_cpu(ana_log->ngrps); i++) {
+ desc = base + offset;
+ nr_nsids = le32_to_cpu(desc->nnsids);
+ nsid_buf_size = nr_nsids * sizeof(__le32);
+
+ offset += sizeof(*desc);
+ printf("grpid : %u\n", le32_to_cpu(desc->grpid));
+ printf("nnsids : %u\n", le32_to_cpu(desc->nnsids));
+ printf("chgcnt : %"PRIu64"\n",
+ le64_to_cpu(desc->chgcnt));
+ printf("state : %s\n",
+ nvme_ana_state_to_string(desc->state));
+ for (j = 0; j < le32_to_cpu(desc->nnsids); j++)
+ printf(" nsid : %u\n",
+ le32_to_cpu(desc->nsids[j]));
+ printf("\n");
+ offset += nsid_buf_size;
+ }
+}
+
+static void stdout_self_test_result(struct nvme_st_result *res)
+{
+ static const char *const test_res[] = {
+ "Operation completed without error",
+ "Operation was aborted by a Device Self-test command",
+ "Operation was aborted by a Controller Level Reset",
+ "Operation was aborted due to a removal of a namespace from the namespace inventory",
+ "Operation was aborted due to the processing of a Format NVM command",
+ "A fatal error or unknown test error occurred while the controller was executing the"\
+ " device self-test operation and the operation did not complete",
+ "Operation completed with a segment that failed and the segment that failed is not known",
+ "Operation completed with one or more failed segments and the first segment that failed "\
+ "is indicated in the SegmentNumber field",
+ "Operation was aborted for unknown reason",
+ "Operation was aborted due to a sanitize operation",
+ "Reserved",
+ [NVME_ST_RESULT_NOT_USED] = "Entry not used (does not contain a result)",
+ };
+ __u8 op, code;
+
+ op = res->dsts & NVME_ST_RESULT_MASK;
+ printf(" Operation Result : %#x", op);
+ if (stdout_print_ops.flags & VERBOSE)
+ printf(" %s", (op < ARRAY_SIZE(test_res) && test_res[op]) ?
+ test_res[op] : test_res[ARRAY_SIZE(test_res) - 1]);
+ printf("\n");
+ if (op == NVME_ST_RESULT_NOT_USED)
+ return;
+
+ code = res->dsts >> NVME_ST_CODE_SHIFT;
+ printf(" Self Test Code : %x", code);
+
+ if (stdout_print_ops.flags & VERBOSE) {
+ switch (code) {
+ case NVME_ST_CODE_SHORT:
+ printf(" Short device self-test operation");
+ break;
+ case NVME_ST_CODE_EXTENDED:
+ printf(" Extended device self-test operation");
+ break;
+ case NVME_ST_CODE_VS:
+ printf(" Vendor specific");
+ break;
+ default:
+ printf(" Reserved");
+ break;
+ }
+ }
+ printf("\n");
+
+ if (op == NVME_ST_RESULT_KNOWN_SEG_FAIL)
+ printf(" Segment Number : %#x\n", res->seg);
+
+ printf(" Valid Diagnostic Information : %#x\n", res->vdi);
+ printf(" Power on hours (POH) : %#"PRIx64"\n",
+ (uint64_t)le64_to_cpu(res->poh));
+
+ if (res->vdi & NVME_ST_VALID_DIAG_INFO_NSID)
+ printf(" Namespace Identifier : %#x\n",
+ le32_to_cpu(res->nsid));
+ if (res->vdi & NVME_ST_VALID_DIAG_INFO_FLBA)
+ printf(" Failing LBA : %#"PRIx64"\n",
+ (uint64_t)le64_to_cpu(res->flba));
+ if (res->vdi & NVME_ST_VALID_DIAG_INFO_SCT)
+ printf(" Status Code Type : %#x\n", res->sct);
+ if (res->vdi & NVME_ST_VALID_DIAG_INFO_SC) {
+ printf(" Status Code : %#x", res->sc);
+ if (stdout_print_ops.flags & VERBOSE)
+ printf(" %s", nvme_status_to_string(
+ (res->sct & 7) << 8 | res->sc, false));
+ printf("\n");
+ }
+ printf(" Vendor Specific : %#x %#x\n",
+ res->vs[0], res->vs[1]);
+}
+
+static void stdout_self_test_log(struct nvme_self_test_log *self_test,
+ __u8 dst_entries, __u32 size,
+ const char *devname)
+{
+ int i;
+ __u8 num_entries;
+
+ printf("Device Self Test Log for NVME device:%s\n", devname);
+ printf("Current operation : %#x\n", self_test->current_operation);
+ printf("Current Completion : %u%%\n", self_test->completion);
+ num_entries = min(dst_entries, NVME_LOG_ST_MAX_RESULTS);
+ for (i = 0; i < num_entries; i++) {
+ printf("Self Test Result[%d]:\n", i);
+ stdout_self_test_result(&self_test->result[i]);
+ }
+}
+
+static void stdout_sanitize_log_sprog(__u32 sprog)
+{
+ double percent;
+
+ percent = (((double)sprog * 100) / 0x10000);
+ printf("\t(%f%%)\n", percent);
+}
+
+static void stdout_sanitize_log_sstat(__u16 status)
+{
+ const char *str = nvme_sstat_status_to_string(status);
+
+ printf("\t[2:0]\t%s\n", str);
+ str = "Number of completed passes if most recent operation was overwrite";
+ printf("\t[7:3]\t%s:\t%u\n", str,
+ (status >> NVME_SANITIZE_SSTAT_COMPLETED_PASSES_SHIFT) &
+ NVME_SANITIZE_SSTAT_COMPLETED_PASSES_MASK);
+
+ printf("\t [8]\t");
+ if (status & NVME_SANITIZE_SSTAT_GLOBAL_DATA_ERASED)
+ str = "Global Data Erased set: no NS LB in the NVM subsystem "\
+ "has been written to and no PMR in the NVM subsystem "\
+ "has been enabled";
+ else
+ str = "Global Data Erased cleared: a NS LB in the NVM "\
+ "subsystem has been written to or a PMR in the NVM "\
+ "subsystem has been enabled";
+ printf("%s\n", str);
+}
+
+static void stdout_estimate_sanitize_time(const char *text, uint32_t value)
+{
+ printf("%s: %u%s\n", text, value,
+ value == 0xffffffff ? " (No time period reported)" : "");
+}
+
+static void stdout_sanitize_log(struct nvme_sanitize_log_page *sanitize,
+ const char *devname)
+{
+ int human = stdout_print_ops.flags & VERBOSE;
+ __u16 status = le16_to_cpu(sanitize->sstat) & NVME_SANITIZE_SSTAT_STATUS_MASK;
+
+ printf("Sanitize Progress (SPROG) : %u",
+ le16_to_cpu(sanitize->sprog));
+
+ if (human && status == NVME_SANITIZE_SSTAT_STATUS_IN_PROGESS)
+ stdout_sanitize_log_sprog(le16_to_cpu(sanitize->sprog));
+ else
+ printf("\n");
+
+ printf("Sanitize Status (SSTAT) : %#x\n",
+ le16_to_cpu(sanitize->sstat));
+ if (human)
+ stdout_sanitize_log_sstat(le16_to_cpu(sanitize->sstat));
+
+ printf("Sanitize Command Dword 10 Information (SCDW10) : %#x\n",
+ le32_to_cpu(sanitize->scdw10));
+ stdout_estimate_sanitize_time("Estimated Time For Overwrite ",
+ le32_to_cpu(sanitize->eto));
+ stdout_estimate_sanitize_time("Estimated Time For Block Erase ",
+ le32_to_cpu(sanitize->etbe));
+ stdout_estimate_sanitize_time("Estimated Time For Crypto Erase ",
+ le32_to_cpu(sanitize->etce));
+ stdout_estimate_sanitize_time("Estimated Time For Overwrite (No-Deallocate) ",
+ le32_to_cpu(sanitize->etond));
+ stdout_estimate_sanitize_time("Estimated Time For Block Erase (No-Deallocate) ",
+ le32_to_cpu(sanitize->etbend));
+ stdout_estimate_sanitize_time("Estimated Time For Crypto Erase (No-Deallocate)",
+ le32_to_cpu(sanitize->etcend));
+}
+
+static void stdout_select_result(enum nvme_features_id fid, __u32 result)
+{
+ if (result & 0x1)
+ printf(" Feature is saveable\n");
+ if (result & 0x2)
+ printf(" Feature is per-namespace\n");
+ if (result & 0x4)
+ printf(" Feature is changeable\n");
+}
+
+static void stdout_lba_range(struct nvme_lba_range_type *lbrt, int nr_ranges)
+{
+ int i, j;
+
+ for (i = 0; i <= nr_ranges; i++) {
+ printf("\ttype : %#x - %s\n", lbrt->entry[i].type,
+ nvme_feature_lba_type_to_string(lbrt->entry[i].type));
+ printf("\tattributes : %#x - %s, %s\n", lbrt->entry[i].attributes,
+ (lbrt->entry[i].attributes & 0x0001) ?
+ "LBA range may be overwritten" :
+ "LBA range should not be overwritten",
+ ((lbrt->entry[i].attributes & 0x0002) >> 1) ?
+ "LBA range should be hidden from the OS/EFI/BIOS" :
+ "LBA range should be visible from the OS/EFI/BIOS");
+ printf("\tslba : %#"PRIx64"\n", le64_to_cpu(lbrt->entry[i].slba));
+ printf("\tnlb : %#"PRIx64"\n", le64_to_cpu(lbrt->entry[i].nlb));
+ printf("\tguid : ");
+ for (j = 0; j < ARRAY_SIZE(lbrt->entry[i].guid); j++)
+ printf("%02x", lbrt->entry[i].guid[j]);
+ printf("\n");
+ }
+}
+
+static void stdout_auto_pst(struct nvme_feat_auto_pst *apst)
+{
+ int i;
+ __u64 value;
+
+ printf( "\tAuto PST Entries");
+ printf("\t.................\n");
+ for (i = 0; i < ARRAY_SIZE(apst->apst_entry); i++) {
+ value = le64_to_cpu(apst->apst_entry[i]);
+
+ printf("\tEntry[%2d] \n", i);
+ printf("\t.................\n");
+ printf("\tIdle Time Prior to Transition (ITPT): %u ms\n",
+ (__u32)NVME_GET(value, APST_ENTRY_ITPT));
+ printf("\tIdle Transition Power State (ITPS): %u\n",
+ (__u32)NVME_GET(value, APST_ENTRY_ITPS));
+ printf("\t.................\n");
+ }
+}
+
+static void stdout_timestamp(struct nvme_timestamp *ts)
+{
+ struct tm *tm;
+ char buffer[320];
+ time_t timestamp = int48_to_long(ts->timestamp) / 1000;
+
+ tm = localtime(&timestamp);
+
+ printf("\tThe timestamp is : %'"PRIu64" (%s)\n",
+ int48_to_long(ts->timestamp),
+ strftime(buffer, sizeof(buffer), "%c %Z", tm) ? buffer : "-");
+ printf("\t%s\n", (ts->attr & 2) ?
+ "The Timestamp field was initialized with a "\
+ "Timestamp value using a Set Features command." :
+ "The Timestamp field was initialized "\
+ "to ‘0’ by a Controller Level Reset.");
+ printf("\t%s\n", (ts->attr & 1) ?
+ "The controller may have stopped counting during vendor specific "\
+ "intervals after the Timestamp value was initialized" :
+ "The controller counted time in milliseconds "\
+ "continuously since the Timestamp value was initialized.");
+}
+
+static void stdout_host_mem_buffer(struct nvme_host_mem_buf_attrs *hmb)
+{
+ printf("\tHost Memory Descriptor List Entry Count (HMDLEC): %u\n",
+ le32_to_cpu(hmb->hmdlec));
+ printf("\tHost Memory Descriptor List Address (HMDLAU): 0x%x\n",
+ le32_to_cpu(hmb->hmdlau));
+ printf("\tHost Memory Descriptor List Address (HMDLAL): 0x%x\n",
+ le32_to_cpu(hmb->hmdlal));
+ printf("\tHost Memory Buffer Size (HSIZE): %u\n",
+ le32_to_cpu(hmb->hsize));
+}
+
+static void stdout_directive_show_fields(__u8 dtype, __u8 doper,
+ unsigned int result, unsigned char *buf)
+{
+ __u8 *field = buf;
+ int count, i;
+
+ switch (dtype) {
+ case NVME_DIRECTIVE_DTYPE_IDENTIFY:
+ switch (doper) {
+ case NVME_DIRECTIVE_RECEIVE_IDENTIFY_DOPER_PARAM:
+ printf("\tDirective support \n");
+ printf("\t\tIdentify Directive : %s\n",
+ (*field & 0x1) ? "supported" : "not supported");
+ printf("\t\tStream Directive : %s\n",
+ (*field & 0x2) ? "supported" : "not supported");
+ printf("\t\tData Placement Directive : %s\n",
+ (*field & 0x4) ? "supported" : "not supported");
+ printf("\tDirective enabled \n");
+ printf("\t\tIdentify Directive : %s\n",
+ (*(field + 32) & 0x1) ? "enabled" : "disabled");
+ printf("\t\tStream Directive : %s\n",
+ (*(field + 32) & 0x2) ? "enabled" : "disabled");
+ printf("\t\tData Placement Directive : %s\n",
+ (*(field + 32) & 0x4) ? "enabled" : "disabled");
+ printf("\tDirective Persistent Across Controller Level Resets \n");
+ printf("\t\tIdentify Directive : %s\n",
+ (*(field + 64) & 0x1) ? "enabled" : "disabled");
+ printf("\t\tStream Directive : %s\n",
+ (*(field + 64) & 0x2) ? "enabled" : "disabled");
+ printf("\t\tData Placement Directive : %s\n",
+ (*(field + 64) & 0x4) ? "enabled" : "disabled");
+ break;
+ default:
+ fprintf(stderr,
+ "invalid directive operations for Identify Directives\n");
+ break;
+ }
+ break;
+ case NVME_DIRECTIVE_DTYPE_STREAMS:
+ switch (doper) {
+ case NVME_DIRECTIVE_RECEIVE_STREAMS_DOPER_PARAM:
+ printf("\tMax Streams Limit (MSL): %u\n",
+ *(__u16 *)field);
+ printf("\tNVM Subsystem Streams Available (NSSA): %u\n",
+ *(__u16 *)(field + 2));
+ printf("\tNVM Subsystem Streams Open (NSSO): %u\n",
+ *(__u16 *)(field + 4));
+ printf("\tNVM Subsystem Stream Capability (NSSC): %u\n",
+ *(__u16 *)(field + 6));
+ printf("\tStream Write Size (in unit of LB size) (SWS): %u\n",
+ *(__u32 *)(field + 16));
+ printf("\tStream Granularity Size (in unit of SWS) (SGS): %u\n",
+ *(__u16 *)(field + 20));
+ printf("\tNamespace Streams Allocated (NSA): %u\n",
+ *(__u16 *)(field + 22));
+ printf("\tNamespace Streams Open (NSO): %u\n",
+ *(__u16 *)(field + 24));
+ break;
+ case NVME_DIRECTIVE_RECEIVE_STREAMS_DOPER_STATUS:
+ count = *(__u16 *)field;
+ printf("\tOpen Stream Count : %u\n", *(__u16 *)field);
+ for (i = 0; i < count; i++)
+ printf("\tStream Identifier %.6u : %u\n", i + 1,
+ *(__u16 *)(field + ((i + 1) * 2)));
+ break;
+ case NVME_DIRECTIVE_RECEIVE_STREAMS_DOPER_RESOURCE:
+ printf("\tNamespace Streams Allocated (NSA): %u\n",
+ result & 0xffff);
+ break;
+ default:
+ fprintf(stderr,
+ "invalid directive operations for Streams Directives\n");
+ break;
+ }
+ break;
+ default:
+ fprintf(stderr, "invalid directive type\n");
+ break;
+ }
+}
+
+static void stdout_directive_show(__u8 type, __u8 oper, __u16 spec, __u32 nsid, __u32 result,
+ void *buf, __u32 len)
+{
+ printf("dir-receive: type:%#x operation:%#x spec:%#x nsid:%#x result:%#x\n",
+ type, oper, spec, nsid, result);
+ if (stdout_print_ops.flags & VERBOSE)
+ stdout_directive_show_fields(type, oper, result, buf);
+ else if (buf)
+ d(buf, len, 16, 1);
+}
+
+static void stdout_lba_status_info(__u32 result)
+{
+ printf("\tLBA Status Information Poll Interval (LSIPI) : %u\n", (result >> 16) & 0xffff);
+ printf("\tLBA Status Information Report Interval (LSIRI): %u\n", result & 0xffff);
+}
+
+void stdout_d(unsigned char *buf, int len, int width, int group)
+{
+ int i, offset = 0;
+ char ascii[32 + 1] = { 0 };
+
+ assert(width < sizeof(ascii));
+
+ printf(" ");
+
+ for (i = 0; i <= 15; i++)
+ printf("%3x", i);
+
+ for (i = 0; i < len; i++) {
+ if (!(i % width))
+ printf( "\n%04x:", offset);
+ if (i % group)
+ printf( "%02x", buf[i]);
+ else
+ printf( " %02x", buf[i]);
+ ascii[i % width] = (buf[i] >= '!' && buf[i] <= '~') ? buf[i] : '.';
+ if (!((i + 1) % width)) {
+ printf( " \"%.*s\"", width, ascii);
+ offset += width;
+ memset(ascii, 0, sizeof(ascii));
+ }
+ }
+
+ if (strlen(ascii)) {
+ unsigned b = width - (i % width);
+ printf( " %*s \"%.*s\"", 2 * b + b / group + (b % group ? 1 : 0), "", width, ascii);
+ }
+
+ printf( "\n");
+}
+
+static void stdout_plm_config(struct nvme_plm_config *plmcfg)
+{
+ printf("\tEnable Event :%04x\n", le16_to_cpu(plmcfg->ee));
+ printf("\tDTWIN Reads Threshold :%"PRIu64"\n", le64_to_cpu(plmcfg->dtwinrt));
+ printf("\tDTWIN Writes Threshold:%"PRIu64"\n", le64_to_cpu(plmcfg->dtwinwt));
+ printf("\tDTWIN Time Threshold :%"PRIu64"\n", le64_to_cpu(plmcfg->dtwintt));
+}
+
+static void stdout_host_metadata(enum nvme_features_id fid,
+ struct nvme_host_metadata *data)
+{
+ struct nvme_metadata_element_desc *desc = &data->descs[0];
+ int i;
+ char val[4096];
+ __u16 len;
+
+ printf("\tNum Metadata Element Descriptors: %d\n", data->ndesc);
+ for (i = 0; i < data->ndesc; i++) {
+ len = le16_to_cpu(desc->len);
+ strncpy(val, (char *)desc->val, min(sizeof(val) - 1, len));
+
+ printf("\tElement[%-3d]:\n", i);
+ printf("\t\tType : 0x%02x (%s)\n", desc->type,
+ nvme_host_metadata_type_to_string(fid, desc->type));
+ printf("\t\tRevision : %d\n", desc->rev);
+ printf("\t\tLength : %d\n", len);
+ printf("\t\tValue : %s\n", val);
+
+ desc = (struct nvme_metadata_element_desc *)&desc->val[desc->len];
+ }
+}
+
+static void stdout_feature_show(enum nvme_features_id fid, int sel, unsigned int result)
+{
+ printf("get-feature:%#0*x (%s), %s value:%#0*x\n", fid ? 4 : 2, fid,
+ nvme_feature_to_string(fid), nvme_select_to_string(sel), result ? 10 : 8, result);
+}
+
+static void stdout_feature_show_fields(enum nvme_features_id fid,
+ unsigned int result,
+ unsigned char *buf)
+{
+ __u8 field;
+ uint64_t ull;
+
+ switch (fid) {
+ case NVME_FEAT_FID_ARBITRATION:
+ printf("\tHigh Priority Weight (HPW): %u\n", ((result & 0xff000000) >> 24) + 1);
+ printf("\tMedium Priority Weight (MPW): %u\n", ((result & 0x00ff0000) >> 16) + 1);
+ printf("\tLow Priority Weight (LPW): %u\n", ((result & 0x0000ff00) >> 8) + 1);
+ printf("\tArbitration Burst (AB): ");
+ if ((result & 0x00000007) == 7)
+ printf("No limit\n");
+ else
+ printf("%u\n", 1 << (result & 0x00000007));
+ break;
+ case NVME_FEAT_FID_POWER_MGMT:
+ field = (result & 0x000000E0) >> 5;
+ printf("\tWorkload Hint (WH): %u - %s\n", field, nvme_feature_wl_hints_to_string(field));
+ printf("\tPower State (PS): %u\n", result & 0x0000001f);
+ break;
+ case NVME_FEAT_FID_LBA_RANGE:
+ field = result & 0x0000003f;
+ printf("\tNumber of LBA Ranges (NUM): %u\n", field + 1);
+ if (buf)
+ stdout_lba_range((struct nvme_lba_range_type *)buf, field);
+ break;
+ case NVME_FEAT_FID_TEMP_THRESH:
+ field = (result & 0x00300000) >> 20;
+ printf("\tThreshold Type Select (THSEL): %u - %s\n", field,
+ nvme_feature_temp_type_to_string(field));
+ field = (result & 0x000f0000) >> 16;
+ printf("\tThreshold Temperature Select (TMPSEL): %u - %s\n",
+ field, nvme_feature_temp_sel_to_string(field));
+ printf("\tTemperature Threshold (TMPTH): %ld °C (%u K)\n",
+ kelvin_to_celsius(result & 0x0000ffff), result & 0x0000ffff);
+ break;
+ case NVME_FEAT_FID_ERR_RECOVERY:
+ printf("\tDeallocated or Unwritten Logical Block Error Enable (DULBE): %s\n",
+ ((result & 0x00010000) >> 16) ? "Enabled" : "Disabled");
+ printf("\tTime Limited Error Recovery (TLER): %u ms\n",
+ (result & 0x0000ffff) * 100);
+ break;
+ case NVME_FEAT_FID_VOLATILE_WC:
+ printf("\tVolatile Write Cache Enable (WCE): %s\n", (result & 0x00000001) ? "Enabled" : "Disabled");
+ break;
+ case NVME_FEAT_FID_NUM_QUEUES:
+ printf("\tNumber of IO Completion Queues Allocated (NCQA): %u\n", ((result & 0xffff0000) >> 16) + 1);
+ printf("\tNumber of IO Submission Queues Allocated (NSQA): %u\n", (result & 0x0000ffff) + 1);
+ break;
+ case NVME_FEAT_FID_IRQ_COALESCE:
+ printf("\tAggregation Time (TIME): %u usec\n", ((result & 0x0000ff00) >> 8) * 100);
+ printf("\tAggregation Threshold (THR): %u\n", (result & 0x000000ff) + 1);
+ break;
+ case NVME_FEAT_FID_IRQ_CONFIG:
+ printf("\tCoalescing Disable (CD): %s\n", ((result & 0x00010000) >> 16) ? "True" : "False");
+ printf("\tInterrupt Vector (IV): %u\n", result & 0x0000ffff);
+ break;
+ case NVME_FEAT_FID_WRITE_ATOMIC:
+ printf("\tDisable Normal (DN): %s\n", (result & 0x00000001) ? "True" : "False");
+ break;
+ case NVME_FEAT_FID_ASYNC_EVENT:
+ printf("\tDiscovery Log Page Change Notices : %s\n",
+ ((result & 0x80000000) >> 31) ? "Send async event" : "Do not send async event");
+ printf("\tEndurance Group Event Aggregate Log Change Notices : %s\n",
+ ((result & 0x00004000) >> 14) ? "Send async event" : "Do not send async event");
+ printf("\tLBA Status Information Notices : %s\n",
+ ((result & 0x00002000) >> 13) ? "Send async event" : "Do not send async event");
+ printf("\tPredictable Latency Event Aggregate Log Change Notices : %s\n",
+ ((result & 0x00001000) >> 12) ? "Send async event" : "Do not send async event");
+ printf("\tAsymmetric Namespace Access Change Notices : %s\n",
+ ((result & 0x00000800) >> 11) ? "Send async event" : "Do not send async event");
+ printf("\tTelemetry Log Notices : %s\n",
+ ((result & 0x00000400) >> 10) ? "Send async event" : "Do not send async event");
+ printf("\tFirmware Activation Notices : %s\n",
+ ((result & 0x00000200) >> 9) ? "Send async event" : "Do not send async event");
+ printf("\tNamespace Attribute Notices : %s\n",
+ ((result & 0x00000100) >> 8) ? "Send async event" : "Do not send async event");
+ printf("\tSMART / Health Critical Warnings : %s\n",
+ (result & 0x000000ff) ? "Send async event" : "Do not send async event");
+ break;
+ case NVME_FEAT_FID_AUTO_PST:
+ printf("\tAutonomous Power State Transition Enable (APSTE): %s\n",
+ (result & 0x00000001) ? "Enabled" : "Disabled");
+ if (buf)
+ stdout_auto_pst((struct nvme_feat_auto_pst *)buf);
+ break;
+ case NVME_FEAT_FID_HOST_MEM_BUF:
+ printf("\tEnable Host Memory (EHM): %s\n", (result & 0x00000001) ? "Enabled" : "Disabled");
+ if (buf)
+ stdout_host_mem_buffer((struct nvme_host_mem_buf_attrs *)buf);
+ break;
+ case NVME_FEAT_FID_TIMESTAMP:
+ if (buf)
+ stdout_timestamp((struct nvme_timestamp *)buf);
+ break;
+ case NVME_FEAT_FID_KATO:
+ printf("\tKeep Alive Timeout (KATO) in milliseconds: %u\n", result);
+ break;
+ case NVME_FEAT_FID_HCTM:
+ printf("\tThermal Management Temperature 1 (TMT1) : %u K (%ld °C)\n",
+ result >> 16, kelvin_to_celsius(result >> 16));
+ printf("\tThermal Management Temperature 2 (TMT2) : %u K (%ld °C)\n",
+ result & 0x0000ffff, kelvin_to_celsius(result & 0x0000ffff));
+ break;
+ case NVME_FEAT_FID_NOPSC:
+ printf("\tNon-Operational Power State Permissive Mode Enable (NOPPME): %s\n",
+ (result & 1) ? "True" : "False");
+ break;
+ case NVME_FEAT_FID_RRL:
+ printf("\tRead Recovery Level (RRL): %u\n", result & 0xf);
+ break;
+ case NVME_FEAT_FID_PLM_CONFIG:
+ printf("\tPredictable Latency Window Enabled: %s\n", result & 0x1 ? "True" : "False");
+ if (buf)
+ stdout_plm_config((struct nvme_plm_config *)buf);
+ break;
+ case NVME_FEAT_FID_PLM_WINDOW:
+ printf("\tWindow Select: %s", nvme_plm_window_to_string(result));
+ break;
+ case NVME_FEAT_FID_LBA_STS_INTERVAL:
+ stdout_lba_status_info(result);
+ break;
+ case NVME_FEAT_FID_HOST_BEHAVIOR:
+ if (buf) {
+ struct nvme_feat_host_behavior *host_behavior =
+ (struct nvme_feat_host_behavior *)buf;
+ printf("\tAdvanced Command Retry Enable (ACRE): %s\n",
+ host_behavior->acre ? "True" : "False");
+ printf("\tExtended Telemetry Data Area 4 Supported (ETDAS): %s\n",
+ host_behavior->etdas ? "True" : "False");
+ printf("\tLBA Format Extension Enable (LBAFEE): %s\n",
+ host_behavior->lbafee ? "True" : "False");
+ printf("\tCopy Descriptor Format 2h Enabled (CDFE): %s\n",
+ host_behavior->cdfe & (1 << 2) ? "True" : "False");
+ printf("\tCopy Descriptor Format 3h Enabled (CDFE): %s\n",
+ host_behavior->cdfe & (1 << 3) ? "True" : "False");
+ }
+ break;
+ case NVME_FEAT_FID_SANITIZE:
+ printf("\tNo-Deallocate Response Mode (NODRM) : %u\n", result & 0x1);
+ break;
+ case NVME_FEAT_FID_ENDURANCE_EVT_CFG:
+ printf("\tEndurance Group Identifier (ENDGID): %u\n", result & 0xffff);
+ printf("\tEndurance Group Critical Warnings : %u\n", (result >> 16) & 0xff);
+ break;
+ case NVME_FEAT_FID_IOCS_PROFILE:
+ printf("\tI/O Command Set Profile: %s\n", result & 0x1 ? "True" : "False");
+ break;
+ case NVME_FEAT_FID_SPINUP_CONTROL:
+ printf("\tSpinup control feature Enabled: %s\n", (result & 1) ? "True" : "False");
+ break;
+ case NVME_FEAT_FID_ENH_CTRL_METADATA:
+ fallthrough;
+ case NVME_FEAT_FID_CTRL_METADATA:
+ fallthrough;
+ case NVME_FEAT_FID_NS_METADATA:
+ if (buf)
+ stdout_host_metadata(fid, (struct nvme_host_metadata *)buf);
+ break;
+ case NVME_FEAT_FID_SW_PROGRESS:
+ printf("\tPre-boot Software Load Count (PBSLC): %u\n", result & 0x000000ff);
+ break;
+ case NVME_FEAT_FID_HOST_ID:
+ if (buf) {
+ ull = buf[7]; ull <<= 8; ull |= buf[6]; ull <<= 8; ull |= buf[5]; ull <<= 8;
+ ull |= buf[4]; ull <<= 8; ull |= buf[3]; ull <<= 8; ull |= buf[2]; ull <<= 8;
+ ull |= buf[1]; ull <<= 8; ull |= buf[0];
+ printf("\tHost Identifier (HOSTID): %" PRIu64 "\n", ull);
+ }
+ break;
+ case NVME_FEAT_FID_RESV_MASK:
+ printf("\tMask Reservation Preempted Notification (RESPRE): %s\n",
+ ((result & 0x00000008) >> 3) ? "True" : "False");
+ printf("\tMask Reservation Released Notification (RESREL): %s\n",
+ ((result & 0x00000004) >> 2) ? "True" : "False");
+ printf("\tMask Registration Preempted Notification (REGPRE): %s\n",
+ ((result & 0x00000002) >> 1) ? "True" : "False");
+ break;
+ case NVME_FEAT_FID_RESV_PERSIST:
+ printf("\tPersist Through Power Loss (PTPL): %s\n", (result & 0x00000001) ? "True" : "False");
+ break;
+ case NVME_FEAT_FID_WRITE_PROTECT:
+ printf("\tNamespace Write Protect: %s\n", nvme_ns_wp_cfg_to_string(result));
+ break;
+ case NVME_FEAT_FID_FDP:
+ printf("\tFlexible Direct Placement Enable (FDPE) : %s\n",
+ (result & 0x1) ? "Yes" : "No");
+ printf("\tFlexible Direct Placement Configuration Index : %u\n",
+ (result >> 8) & 0xf);
+ break;
+ case NVME_FEAT_FID_FDP_EVENTS:
+ for (unsigned int i = 0; i < result; i++) {
+ struct nvme_fdp_supported_event_desc *d;
+
+ d = &((struct nvme_fdp_supported_event_desc *)buf)[i];
+
+ printf("\t%-53s: %sEnabled\n", nvme_fdp_event_to_string(d->evt),
+ d->evta & 0x1 ? "" : "Not ");
+ }
+ break;
+ default:
+ break;
+ }
+}
+
+static void stdout_lba_status(struct nvme_lba_status *list,
+ unsigned long len)
+{
+ int idx;
+
+ printf("Number of LBA Status Descriptors(NLSD): %" PRIu32 "\n",
+ le32_to_cpu(list->nlsd));
+ printf("Completion Condition(CMPC): %u\n", list->cmpc);
+
+ switch (list->cmpc) {
+ case 1:
+ printf("\tCompleted due to transferring the amount of data"\
+ " specified in the MNDW field\n");
+ break;
+ case 2:
+ printf("\tCompleted due to having performed the action\n"\
+ "\tspecified in the Action Type field over the\n"\
+ "\tnumber of logical blocks specified in the\n"\
+ "\tRange Length field\n");
+ break;
+ default:
+ break;
+ }
+
+ for (idx = 0; idx < list->nlsd; idx++) {
+ struct nvme_lba_status_desc *e = &list->descs[idx];
+ printf("{ DSLBA: 0x%016"PRIu64", NLB: 0x%08x, Status: 0x%02x }\n",
+ le64_to_cpu(e->dslba), le32_to_cpu(e->nlb),
+ e->status);
+ }
+}
+
+static void stdout_dev_full_path(nvme_ns_t n, char *path, size_t len)
+{
+ struct stat st;
+
+ snprintf(path, len, "/dev/%s", nvme_ns_get_name(n));
+ if (stat(path, &st) == 0)
+ return;
+
+ snprintf(path, len, "/dev/spdk/%s", nvme_ns_get_name(n));
+ if (stat(path, &st) == 0)
+ return;
+
+ /*
+ * We could start trying to search for it but let's make
+ * it simple and just don't show the path at all.
+ */
+ snprintf(path, len, "%s", nvme_ns_get_name(n));
+}
+
+static void stdout_generic_full_path(nvme_ns_t n, char *path, size_t len)
+{
+ int head_instance;
+ int instance;
+ struct stat st;
+
+ sscanf(nvme_ns_get_name(n), "nvme%dn%d", &instance, &head_instance);
+ snprintf(path, len, "/dev/ng%dn%d", instance, head_instance);
+
+ if (stat(path, &st) == 0)
+ return;
+
+ snprintf(path, len, "/dev/spdk/ng%dn%d", instance, head_instance);
+ if (stat(path, &st) == 0)
+ return;
+ /*
+ * We could start trying to search for it but let's make
+ * it simple and just don't show the path at all.
+ */
+ snprintf(path, len, "ng%dn%d", instance, head_instance);
+}
+
+static void stdout_list_item(nvme_ns_t n)
+{
+ char usage[128] = { 0 }, format[128] = { 0 };
+ char devname[128] = { 0 }; char genname[128] = { 0 };
+
+ long long lba = nvme_ns_get_lba_size(n);
+ double nsze = nvme_ns_get_lba_count(n) * lba;
+ double nuse = nvme_ns_get_lba_util(n) * lba;
+
+ const char *s_suffix = suffix_si_get(&nsze);
+ const char *u_suffix = suffix_si_get(&nuse);
+ const char *l_suffix = suffix_binary_get(&lba);
+
+ snprintf(usage, sizeof(usage), "%6.2f %2sB / %6.2f %2sB", nuse,
+ u_suffix, nsze, s_suffix);
+ snprintf(format, sizeof(format), "%3.0f %2sB + %2d B", (double)lba,
+ l_suffix, nvme_ns_get_meta_size(n));
+
+ stdout_dev_full_path(n, devname, sizeof(devname));
+ stdout_generic_full_path(n, genname, sizeof(genname));
+
+ printf("%-21s %-21s %-20s %-40s %#-10x %-26s %-16s %-8s\n",
+ devname, genname, nvme_ns_get_serial(n),
+ nvme_ns_get_model(n), nvme_ns_get_nsid(n), usage, format,
+ nvme_ns_get_firmware(n));
+}
+
+static bool stdout_simple_ns(const char *name, void *arg)
+{
+ struct nvme_resources *res = arg;
+ nvme_ns_t n;
+
+ n = htable_ns_get(&res->ht_n, name);
+ stdout_list_item(n);
+
+ return true;
+}
+
+static void stdout_simple_list(nvme_root_t r)
+{
+ struct nvme_resources res;
+
+ nvme_resources_init(r, &res);
+
+ printf("%-21s %-21s %-20s %-40s %-10s %-26s %-16s %-8s\n",
+ "Node", "Generic", "SN", "Model", "Namespace", "Usage", "Format", "FW Rev");
+ printf("%-.21s %-.21s %-.20s %-.40s %-.10s %-.26s %-.16s %-.8s\n",
+ dash, dash, dash, dash, dash, dash, dash, dash);
+ strset_iterate(&res.namespaces, stdout_simple_ns, &res);
+
+ nvme_resources_free(&res);
+}
+
+static void stdout_ns_details(nvme_ns_t n)
+{
+ char usage[128] = { 0 }, format[128] = { 0 };
+ char devname[128] = { 0 }, genname[128] = { 0 };
+
+ long long lba = nvme_ns_get_lba_size(n);
+ double nsze = nvme_ns_get_lba_count(n) * lba;
+ double nuse = nvme_ns_get_lba_util(n) * lba;
+
+ const char *s_suffix = suffix_si_get(&nsze);
+ const char *u_suffix = suffix_si_get(&nuse);
+ const char *l_suffix = suffix_binary_get(&lba);
+
+ sprintf(usage,"%6.2f %2sB / %6.2f %2sB", nuse, u_suffix, nsze, s_suffix);
+ sprintf(format,"%3.0f %2sB + %2d B", (double)lba, l_suffix,
+ nvme_ns_get_meta_size(n));
+
+ nvme_dev_full_path(n, devname, sizeof(devname));
+ nvme_generic_full_path(n, genname, sizeof(genname));
+
+ printf("%-12s %-12s %#-10x %-26s %-16s ", devname,
+ genname, nvme_ns_get_nsid(n), usage, format);
+}
+
+static bool stdout_detailed_name(const char *name, void *arg)
+{
+ bool *first = arg;
+
+ printf("%s%s", *first ? "" : ", ", name);
+ *first = false;
+
+ return true;
+}
+
+static bool stdout_detailed_subsys(const char *name, void *arg)
+{
+ struct nvme_resources *res = arg;
+ struct htable_subsys_iter it;
+ struct strset ctrls;
+ nvme_subsystem_t s;
+ nvme_ctrl_t c;
+ bool first;
+
+ strset_init(&ctrls);
+ first = true;
+ for (s = htable_subsys_getfirst(&res->ht_s, name, &it);
+ s;
+ s = htable_subsys_getnext(&res->ht_s, name, &it)) {
+ if (first) {
+ printf("%-16s %-96s ", name, nvme_subsystem_get_nqn(s));
+ first = false;
+ }
+
+ nvme_subsystem_for_each_ctrl(s, c)
+ strset_add(&ctrls, nvme_ctrl_get_name(c));
+ }
+
+ first = true;
+ strset_iterate(&ctrls, stdout_detailed_name, &first);
+ strset_clear(&ctrls);
+ printf("\n");
+
+ return true;
+}
+
+static bool stdout_detailed_ctrl(const char *name, void *arg)
+{
+ struct nvme_resources *res = arg;
+ struct strset namespaces;
+ nvme_ctrl_t c;
+ nvme_path_t p;
+ nvme_ns_t n;
+ bool first;
+
+ c = htable_ctrl_get(&res->ht_c, name);
+ assert(c);
+
+ printf("%-8s %-20s %-40s %-8s %-6s %-14s %-6s %-12s ",
+ nvme_ctrl_get_name(c),
+ nvme_ctrl_get_serial(c),
+ nvme_ctrl_get_model(c),
+ nvme_ctrl_get_firmware(c),
+ nvme_ctrl_get_transport(c),
+ nvme_ctrl_get_address(c),
+ nvme_ctrl_get_phy_slot(c),
+ nvme_subsystem_get_name(nvme_ctrl_get_subsystem(c)));
+
+ strset_init(&namespaces);
+
+ nvme_ctrl_for_each_ns(c, n)
+ strset_add(&namespaces, nvme_ns_get_name(n));
+ nvme_ctrl_for_each_path(c, p) {
+ n = nvme_path_get_ns(p);
+ if (!n)
+ continue;
+ strset_add(&namespaces, nvme_ns_get_name(n));
+ }
+
+ first = true;
+ strset_iterate(&namespaces, stdout_detailed_name, &first);
+ strset_clear(&namespaces);
+
+ printf("\n");
+
+ return true;
+}
+
+static bool stdout_detailed_ns(const char *name, void *arg)
+{
+ struct nvme_resources *res = arg;
+ struct htable_ns_iter it;
+ struct strset ctrls;
+ nvme_ctrl_t c;
+ nvme_path_t p;
+ nvme_ns_t n;
+ bool first;
+
+ strset_init(&ctrls);
+ first = true;
+ for (n = htable_ns_getfirst(&res->ht_n, name, &it);
+ n;
+ n = htable_ns_getnext(&res->ht_n, name, &it)) {
+ if (first) {
+ stdout_ns_details(n);
+ first = false;
+ }
+
+ if (nvme_ns_get_ctrl(n)) {
+ printf("%s\n", nvme_ctrl_get_name(nvme_ns_get_ctrl(n)));
+ return true;
+ }
+
+ nvme_namespace_for_each_path(n, p) {
+ c = nvme_path_get_ctrl(p);
+ strset_add(&ctrls, nvme_ctrl_get_name(c));
+ }
+ }
+
+ first = true;
+ strset_iterate(&ctrls, stdout_detailed_name, &first);
+ strset_clear(&ctrls);
+
+ printf("\n");
+ return true;
+}
+
+static void stdout_detailed_list(nvme_root_t r)
+{
+ struct nvme_resources res;
+
+ nvme_resources_init(r, &res);
+
+ printf("%-16s %-96s %-.16s\n", "Subsystem", "Subsystem-NQN", "Controllers");
+ printf("%-.16s %-.96s %-.16s\n", dash, dash, dash);
+ strset_iterate(&res.subsystems, stdout_detailed_subsys, &res);
+ printf("\n");
+
+ printf("%-8s %-20s %-40s %-8s %-6s %-14s %-6s %-12s %-16s\n", "Device",
+ "SN", "MN", "FR", "TxPort", "Address", "Slot", "Subsystem", "Namespaces");
+ printf("%-.8s %-.20s %-.40s %-.8s %-.6s %-.14s %-.6s %-.12s %-.16s\n", dash,
+ dash, dash, dash, dash, dash, dash, dash, dash);
+ strset_iterate(&res.ctrls, stdout_detailed_ctrl, &res);
+ printf("\n");
+
+ printf("%-12s %-12s %-10s %-26s %-16s %-16s\n", "Device", "Generic",
+ "NSID", "Usage", "Format", "Controllers");
+ printf("%-.12s %-.12s %-.10s %-.26s %-.16s %-.16s\n", dash, dash, dash,
+ dash, dash, dash);
+ strset_iterate(&res.namespaces, stdout_detailed_ns, &res);
+
+ nvme_resources_free(&res);
+}
+
+static void stdout_list_items(nvme_root_t r)
+{
+ if (stdout_print_ops.flags & VERBOSE)
+ stdout_detailed_list(r);
+ else
+ stdout_simple_list(r);
+}
+
+static bool nvme_is_multipath(nvme_subsystem_t s)
+{
+ nvme_ns_t n;
+ nvme_path_t p;
+
+ nvme_subsystem_for_each_ns(s, n)
+ nvme_namespace_for_each_path(n, p)
+ return true;
+
+ return false;
+}
+
+static void stdout_subsystem_topology_multipath(nvme_subsystem_t s,
+ enum nvme_cli_topo_ranking ranking)
+{
+ nvme_ns_t n;
+ nvme_path_t p;
+ nvme_ctrl_t c;
+
+ if (ranking == NVME_CLI_TOPO_NAMESPACE) {
+ nvme_subsystem_for_each_ns(s, n) {
+ if (!nvme_namespace_first_path(n))
+ continue;
+
+ printf(" +- ns %d\n", nvme_ns_get_nsid(n));
+ printf(" \\\n");
+
+ nvme_namespace_for_each_path(n, p) {
+ c = nvme_path_get_ctrl(p);
+
+ printf(" +- %s %s %s %s %s\n",
+ nvme_ctrl_get_name(c),
+ nvme_ctrl_get_transport(c),
+ nvme_ctrl_get_address(c),
+ nvme_ctrl_get_state(c),
+ nvme_path_get_ana_state(p));
+ }
+ }
+ } else {
+ /* NVME_CLI_TOPO_CTRL */
+ nvme_subsystem_for_each_ctrl(s, c) {
+ printf(" +- %s %s %s\n",
+ nvme_ctrl_get_name(c),
+ nvme_ctrl_get_transport(c),
+ nvme_ctrl_get_address(c));
+ printf(" \\\n");
+
+ nvme_subsystem_for_each_ns(s, n) {
+ nvme_namespace_for_each_path(n, p) {
+ if (nvme_path_get_ctrl(p) != c)
+ continue;
+
+ printf(" +- ns %d %s %s\n",
+ nvme_ns_get_nsid(n),
+ nvme_ctrl_get_state(c),
+ nvme_path_get_ana_state(p));
+ }
+ }
+ }
+ }
+}
+
+static void stdout_subsystem_topology(nvme_subsystem_t s,
+ enum nvme_cli_topo_ranking ranking)
+{
+ nvme_ctrl_t c;
+ nvme_ns_t n;
+
+ if (ranking == NVME_CLI_TOPO_NAMESPACE) {
+ nvme_subsystem_for_each_ctrl(s, c) {
+ nvme_ctrl_for_each_ns(c, n) {
+ printf(" +- ns %d\n", nvme_ns_get_nsid(n));
+ printf(" \\\n");
+ printf(" +- %s %s %s %s\n",
+ nvme_ctrl_get_name(c),
+ nvme_ctrl_get_transport(c),
+ nvme_ctrl_get_address(c),
+ nvme_ctrl_get_state(c));
+ }
+ }
+ } else {
+ /* NVME_CLI_TOPO_CTRL */
+ nvme_subsystem_for_each_ctrl(s, c) {
+ printf(" +- %s %s %s\n",
+ nvme_ctrl_get_name(c),
+ nvme_ctrl_get_transport(c),
+ nvme_ctrl_get_address(c));
+ printf(" \\\n");
+ nvme_ctrl_for_each_ns(c, n) {
+ printf(" +- ns %d %s\n",
+ nvme_ns_get_nsid(n),
+ nvme_ctrl_get_state(c));
+ }
+ }
+ }
+}
+
+static void stdout_simple_topology(nvme_root_t r,
+ enum nvme_cli_topo_ranking ranking)
+{
+ nvme_host_t h;
+ nvme_subsystem_t s;
+ bool first = true;
+
+ nvme_for_each_host(r, h) {
+ nvme_for_each_subsystem(h, s) {
+ int len = strlen(nvme_subsystem_get_name(s));
+
+ if (!first)
+ printf("\n");
+ first = false;
+
+ printf("%s - NQN=%s\n", nvme_subsystem_get_name(s),
+ nvme_subsystem_get_nqn(s));
+ printf("%*s hostnqn=%s\n", len, " ",
+ nvme_host_get_hostnqn(nvme_subsystem_get_host(s)));
+ printf("%*s iopolicy=%s\n", len, " ",
+ nvme_subsystem_get_iopolicy(s));
+ printf("\\\n");
+
+ if (nvme_is_multipath(s))
+ stdout_subsystem_topology_multipath(s, ranking);
+ else
+ stdout_subsystem_topology(s, ranking);
+ }
+ }
+}
+
+static void stdout_topology_namespace(nvme_root_t r)
+{
+ stdout_simple_topology(r, NVME_CLI_TOPO_NAMESPACE);
+}
+
+static void stdout_topology_ctrl(nvme_root_t r)
+{
+ stdout_simple_topology(r, NVME_CLI_TOPO_CTRL);
+}
+
+static void stdout_message(bool error, const char *msg, va_list ap)
+{
+ vfprintf(error ? stderr : stdout, msg, ap);
+
+ fprintf(error ? stderr : stdout, "\n");
+}
+
+static void stdout_perror(const char *msg)
+{
+ perror(msg);
+}
+
+static void stdout_discovery_log(struct nvmf_discovery_log *log, int numrec)
+{
+ int i;
+
+ printf("\nDiscovery Log Number of Records %d, Generation counter %"PRIu64"\n",
+ numrec, le64_to_cpu(log->genctr));
+
+ for (i = 0; i < numrec; i++) {
+ struct nvmf_disc_log_entry *e = &log->entries[i];
+
+ printf("=====Discovery Log Entry %d======\n", i);
+ printf("trtype: %s\n", nvmf_trtype_str(e->trtype));
+ printf("adrfam: %s\n",
+ strlen(e->traddr) ?
+ nvmf_adrfam_str(e->adrfam) : "");
+ printf("subtype: %s\n", nvmf_subtype_str(e->subtype));
+ printf("treq: %s\n", nvmf_treq_str(e->treq));
+ printf("portid: %d\n", le16_to_cpu(e->portid));
+ printf("trsvcid: %s\n", e->trsvcid);
+ printf("subnqn: %s\n", e->subnqn);
+ printf("traddr: %s\n", e->traddr);
+ printf("eflags: %s\n",
+ nvmf_eflags_str(le16_to_cpu(e->eflags)));
+
+ switch (e->trtype) {
+ case NVMF_TRTYPE_RDMA:
+ printf("rdma_prtype: %s\n",
+ nvmf_prtype_str(e->tsas.rdma.prtype));
+ printf("rdma_qptype: %s\n",
+ nvmf_qptype_str(e->tsas.rdma.qptype));
+ printf("rdma_cms: %s\n",
+ nvmf_cms_str(e->tsas.rdma.cms));
+ printf("rdma_pkey: 0x%04x\n",
+ le16_to_cpu(e->tsas.rdma.pkey));
+ break;
+ case NVMF_TRTYPE_TCP:
+ printf("sectype: %s\n",
+ nvmf_sectype_str(e->tsas.tcp.sectype));
+ break;
+ }
+ }
+}
+
+static void stdout_connect_msg(nvme_ctrl_t c)
+{
+ printf("connecting to device: %s\n", nvme_ctrl_get_name(c));
+}
+
+static struct print_ops stdout_print_ops = {
+ /* libnvme types.h print functions */
+ .ana_log = stdout_ana_log,
+ .boot_part_log = stdout_boot_part_log,
+ .phy_rx_eom_log = stdout_phy_rx_eom_log,
+ .ctrl_list = stdout_list_ctrl,
+ .ctrl_registers = stdout_ctrl_registers,
+ .directive = stdout_directive_show,
+ .discovery_log = stdout_discovery_log,
+ .effects_log_list = stdout_effects_log_pages,
+ .endurance_group_event_agg_log = stdout_endurance_group_event_agg_log,
+ .endurance_group_list = stdout_endurance_group_list,
+ .endurance_log = stdout_endurance_log,
+ .error_log = stdout_error_log,
+ .fdp_config_log = stdout_fdp_configs,
+ .fdp_event_log = stdout_fdp_events,
+ .fdp_ruh_status = stdout_fdp_ruh_status,
+ .fdp_stats_log = stdout_fdp_stats,
+ .fdp_usage_log = stdout_fdp_usage,
+ .fid_supported_effects_log = stdout_fid_support_effects_log,
+ .fw_log = stdout_fw_log,
+ .id_ctrl = stdout_id_ctrl,
+ .id_ctrl_nvm = stdout_id_ctrl_nvm,
+ .id_domain_list = stdout_id_domain_list,
+ .id_independent_id_ns = stdout_cmd_set_independent_id_ns,
+ .id_iocs = stdout_id_iocs,
+ .id_ns = stdout_id_ns,
+ .id_ns_descs = stdout_id_ns_descs,
+ .id_ns_granularity_list = stdout_id_ns_granularity_list,
+ .id_nvmset_list = stdout_id_nvmset,
+ .id_uuid_list = stdout_id_uuid_list,
+ .lba_status = stdout_lba_status,
+ .lba_status_log = stdout_lba_status_log,
+ .media_unit_stat_log = stdout_media_unit_stat_log,
+ .mi_cmd_support_effects_log = stdout_mi_cmd_support_effects_log,
+ .ns_list = stdout_list_ns,
+ .ns_list_log = stdout_changed_ns_list_log,
+ .nvm_id_ns = stdout_nvm_id_ns,
+ .persistent_event_log = stdout_persistent_event_log,
+ .predictable_latency_event_agg_log = stdout_predictable_latency_event_agg_log,
+ .predictable_latency_per_nvmset = stdout_predictable_latency_per_nvmset,
+ .primary_ctrl_cap = stdout_primary_ctrl_cap,
+ .resv_notification_log = stdout_resv_notif_log,
+ .resv_report = stdout_resv_report,
+ .sanitize_log_page = stdout_sanitize_log,
+ .secondary_ctrl_list = stdout_list_secondary_ctrl,
+ .select_result = stdout_select_result,
+ .self_test_log = stdout_self_test_log,
+ .single_property = stdout_single_property,
+ .smart_log = stdout_smart_log,
+ .supported_cap_config_list_log = stdout_supported_cap_config_log,
+ .supported_log_pages = stdout_supported_log,
+ .zns_start_zone_list = stdout_zns_start_zone_list,
+ .zns_changed_zone_log = stdout_zns_changed,
+ .zns_finish_zone_list = NULL,
+ .zns_id_ctrl = stdout_zns_id_ctrl,
+ .zns_id_ns = stdout_zns_id_ns,
+ .zns_report_zones = stdout_zns_report_zones,
+ .show_feature = stdout_feature_show,
+ .show_feature_fields = stdout_feature_show_fields,
+ .id_ctrl_rpmbs = stdout_id_ctrl_rpmbs,
+ .lba_range = stdout_lba_range,
+ .lba_status_info = stdout_lba_status_info,
+ .d = stdout_d,
+ .show_init = NULL,
+ .show_finish = NULL,
+
+ /* libnvme tree print functions */
+ .list_item = stdout_list_item,
+ .list_items = stdout_list_items,
+ .print_nvme_subsystem_list = stdout_subsystem_list,
+ .topology_ctrl = stdout_topology_ctrl,
+ .topology_namespace = stdout_topology_namespace,
+
+ /* status and error messages */
+ .connect_msg = stdout_connect_msg,
+ .show_message = stdout_message,
+ .show_perror = stdout_perror,
+ .show_status = stdout_status,
+ .show_error_status = stdout_error_status,
+};
+
+struct print_ops *nvme_get_stdout_print_ops(enum nvme_print_flags flags)
+{
+ stdout_print_ops.flags = flags;
+ return &stdout_print_ops;
+}