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// SPDX-License-Identifier: GPL-2.0-or-later
/*
* Copyright (c) 2022-2024 Solidigm.
*
* Author: leonardo.da.cunha@solidigm.com
*/
#include <errno.h>
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <inttypes.h>
#include "common.h"
#include "nvme.h"
#include "libnvme.h"
#include "plugin.h"
#include "linux/types.h"
#include "nvme-print.h"
#include "solidigm-util.h"
#define BUCKET_LIST_SIZE_4_0 152
#define BUCKET_LIST_SIZE_4_1 1216
#define BASE_RANGE_BITS_4_0 3
#define BASE_RANGE_BITS_4_1 6
struct latency_statistics {
__u16 version_major;
__u16 version_minor;
__u32 data[BUCKET_LIST_SIZE_4_1];
__u64 average_latency;
};
struct config {
bool enable;
bool disable;
bool read;
bool write;
unsigned char type;
char *output_format;
};
struct latency_tracker {
int fd;
__u8 uuid_index;
struct config cfg;
enum nvme_print_flags print_flags;
struct latency_statistics stats;
struct json_object *bucket_list;
__u32 bucket_list_size;
__u8 base_range_bits;
bool has_average_latency_field;
};
/* COL_WIDTH controls width of columns in NORMAL output. */
#define COL_WIDTH 12
#define BUCKET_LABEL_MAX_SIZE 10
#define US_IN_S 1000000
#define US_IN_MS 1000
/*
* Edge buckets may have range [#s, inf) in some
* latency statistics formats.
*/
static void get_time_unit_label(char *label, __u32 microseconds,
bool bonded)
{
char *string = "us";
int divisor = 1;
if (!bonded) {
snprintf(label, BUCKET_LABEL_MAX_SIZE, "%s", "+INF");
return;
}
if (microseconds > US_IN_S) {
string = "s";
divisor = US_IN_S;
} else if (microseconds > US_IN_MS) {
string = "ms";
divisor = US_IN_MS;
}
snprintf(label, BUCKET_LABEL_MAX_SIZE, "%4.2f%s", (float) microseconds / divisor,
string);
}
static void latency_tracker_bucket_parse(const struct latency_tracker *lt, int id,
__u32 lower_us, __u32 upper_us, bool upper_bounded)
{
char buffer[BUCKET_LABEL_MAX_SIZE] = "";
__u32 bucket_data = le32_to_cpu(lt->stats.data[id]);
if (lt->print_flags == NORMAL) {
printf("%-*d", COL_WIDTH, id);
get_time_unit_label(buffer, lower_us, true);
printf("%-*s", COL_WIDTH, buffer);
get_time_unit_label(buffer, upper_us, upper_bounded);
printf("%-*s", COL_WIDTH, buffer);
printf("%-*d\n", COL_WIDTH, bucket_data);
}
if (lt->print_flags == JSON) {
/*
* Creates a bucket under the "values" json_object. Format is:
* "values" : {
* "bucket" : {
* "id" : #,
* "start" : string,
* "end" : string,
* "value" : 0,
* },
*/
struct json_object *bucket = json_create_object();
json_object_array_add(lt->bucket_list, bucket);
json_object_add_value_int(bucket, "id", id);
get_time_unit_label(buffer, lower_us, true);
json_object_add_value_string(bucket, "start", buffer);
get_time_unit_label(buffer, upper_us, upper_bounded);
json_object_add_value_string(bucket, "end", buffer);
json_object_add_value_int(bucket, "value", bucket_data);
}
}
static void latency_tracker_parse_linear(const struct latency_tracker *lt,
__u32 start_offset, __u32 end_offset,
__u32 bytes_per, __u32 us_step,
bool nonzero_print)
{
for (int i = (start_offset / bytes_per) - 1; i < end_offset / bytes_per; i++) {
if (nonzero_print && !lt->stats.data[i])
continue;
latency_tracker_bucket_parse(lt, i, us_step * i, us_step * (i + 1), true);
}
}
/*
* Calculates bucket time slot. Valid starting on 4.0 revision.
*/
static int latency_tracker_bucket_pos2us(const struct latency_tracker *lt, int i)
{
__u32 base_val = 1 << lt->base_range_bits;
if (i < (base_val << 1))
return i;
int error_bits = (i >> lt->base_range_bits) - 1;
int base = 1 << (error_bits + lt->base_range_bits);
int k = i % base_val;
return base + ((k + 0.5) * (1 << error_bits));
}
/*
* Creates a subroot in the following manner:
* {
* "latstats" : {
* "type" : "write" or "read",
* "values" : {
*/
static void latency_tracker_populate_json_root(const struct latency_tracker *lt,
struct json_object *root)
{
struct json_object *subroot = json_create_object();
json_object_add_value_object(root, "latstats", subroot);
json_object_add_value_string(subroot, "type", lt->cfg.write ? "write" : "read");
if (lt->has_average_latency_field)
json_object_add_value_uint64(subroot, "average_latency",
le64_to_cpu(lt->stats.average_latency));
json_object_add_value_object(subroot, "values", lt->bucket_list);
}
static void latency_tracker_parse_3_0(const struct latency_tracker *lt)
{
latency_tracker_parse_linear(lt, 4, 131, 4, 32, false);
latency_tracker_parse_linear(lt, 132, 255, 4, 1024, false);
latency_tracker_parse_linear(lt, 256, 379, 4, 32768, false);
latency_tracker_parse_linear(lt, 380, 383, 4, 32, true);
latency_tracker_parse_linear(lt, 384, 387, 4, 32, true);
latency_tracker_parse_linear(lt, 388, 391, 4, 32, true);
}
static void latency_tracker_parse_4_0(const struct latency_tracker *lt)
{
for (unsigned int i = 0; i < lt->bucket_list_size; i++) {
int lower_us = latency_tracker_bucket_pos2us(lt, i);
int upper_us = latency_tracker_bucket_pos2us(lt, i + 1);
latency_tracker_bucket_parse(lt, i, lower_us, upper_us,
i < (lt->bucket_list_size - 1));
}
}
static void print_dash_separator(void)
{
printf("--------------------------------------------------\n");
}
static void latency_tracker_pre_parse(struct latency_tracker *lt)
{
if (lt->print_flags == NORMAL) {
printf("Solidigm IO %s Command Latency Tracking Statistics type %d\n",
lt->cfg.write ? "Write" : "Read", lt->cfg.type);
printf("UUID-idx: %d\n", lt->uuid_index);
printf("Major Revision: %u\nMinor Revision: %u\n",
le16_to_cpu(lt->stats.version_major), le16_to_cpu(lt->stats.version_minor));
if (lt->has_average_latency_field)
printf("Average Latency: %" PRIu64 "\n", le64_to_cpu(lt->stats.average_latency));
print_dash_separator();
printf("%-12s%-12s%-12s%-20s\n", "Bucket", "Start", "End", "Value");
print_dash_separator();
}
if (lt->print_flags == JSON)
lt->bucket_list = json_object_new_array();
}
static void latency_tracker_post_parse(struct latency_tracker *lt)
{
if (lt->print_flags == JSON) {
struct json_object *root = json_create_object();
latency_tracker_populate_json_root(lt, root);
json_print_object(root, NULL);
json_free_object(root);
printf("\n");
}
}
static void latency_tracker_parse(struct latency_tracker *lt)
{
__u16 version_major = le16_to_cpu(lt->stats.version_major);
__u16 version_minor = le16_to_cpu(lt->stats.version_minor);
switch (version_major) {
case 3:
latency_tracker_pre_parse(lt);
latency_tracker_parse_3_0(lt);
break;
case 4:
if (version_minor >= 8)
lt->has_average_latency_field = true;
latency_tracker_pre_parse(lt);
if (!version_minor) {
lt->base_range_bits = BASE_RANGE_BITS_4_0;
lt->bucket_list_size = BUCKET_LIST_SIZE_4_0;
}
latency_tracker_parse_4_0(lt);
break;
default:
printf("Unsupported revision (%u.%u)\n",
version_major, version_minor);
break;
}
latency_tracker_post_parse(lt);
}
#define LATENCY_TRACKING_FID 0xe2
#define LATENCY_TRACKING_FID_DATA_LEN 32
static int latency_tracking_is_enable(struct latency_tracker *lt, __u32 *enabled)
{
struct nvme_get_features_args args_get = {
.args_size = sizeof(args_get),
.fd = lt->fd,
.uuidx = lt->uuid_index,
.fid = LATENCY_TRACKING_FID,
.nsid = 0,
.sel = 0,
.cdw11 = 0,
.data_len = LATENCY_TRACKING_FID_DATA_LEN,
.data = NULL,
.timeout = NVME_DEFAULT_IOCTL_TIMEOUT,
.result = enabled,
};
return nvme_get_features(&args_get);
}
static int latency_tracking_enable(struct latency_tracker *lt)
{
__u32 result;
int err;
if (!(lt->cfg.enable || lt->cfg.disable))
return 0;
if (lt->cfg.enable && lt->cfg.disable) {
fprintf(stderr, "Cannot enable and disable simultaneously.\n");
return -EINVAL;
}
struct nvme_set_features_args args_set = {
.args_size = sizeof(args_set),
.fd = lt->fd,
.uuidx = lt->uuid_index,
.fid = LATENCY_TRACKING_FID,
.nsid = 0,
.cdw11 = lt->cfg.enable,
.cdw12 = 0,
.save = 0,
.cdw15 = 0,
.data_len = LATENCY_TRACKING_FID_DATA_LEN,
.data = NULL,
.timeout = NVME_DEFAULT_IOCTL_TIMEOUT,
.result = &result,
};
err = nvme_set_features(&args_set);
if (err > 0) {
nvme_show_status(err);
} else if (err < 0) {
perror("Enable latency tracking");
fprintf(stderr, "Command failed while parsing.\n");
} else {
if (lt->print_flags == NORMAL) {
printf("Successfully set enable bit for UUID-idx:%d FID:0x%X, to %i.\n",
lt->uuid_index, LATENCY_TRACKING_FID, lt->cfg.enable);
}
}
return err;
}
#define READ_LOG_ID 0xc1
#define WRITE_LOG_ID 0xc2
static int latency_tracker_get_log(struct latency_tracker *lt)
{
int err;
if (lt->cfg.read && lt->cfg.write) {
fprintf(stderr, "Cannot capture read and write logs simultaneously.\n");
return -EINVAL;
}
if (!(lt->cfg.read || lt->cfg.write))
return 0;
struct nvme_get_log_args args = {
.lpo = 0,
.result = NULL,
.log = <->stats,
.args_size = sizeof(args),
.fd = lt->fd,
.uuidx = lt->uuid_index,
.timeout = NVME_DEFAULT_IOCTL_TIMEOUT,
.lid = lt->cfg.write ? WRITE_LOG_ID : READ_LOG_ID,
.len = sizeof(lt->stats),
.nsid = NVME_NSID_ALL,
.csi = NVME_CSI_NVM,
.lsi = NVME_LOG_LSI_NONE,
.lsp = lt->cfg.type,
.rae = false,
.ot = false,
};
err = nvme_get_log(&args);
if (err)
return err;
if (lt->print_flags & BINARY)
d_raw((unsigned char *)<->stats,
sizeof(lt->stats));
else {
latency_tracker_parse(lt);
}
return err;
}
int solidigm_get_latency_tracking_log(int argc, char **argv, struct command *cmd,
struct plugin *plugin)
{
const char *desc = "Get and Parse Solidigm Latency Tracking Statistics log.";
struct nvme_dev *dev;
__u32 enabled;
int err;
struct latency_tracker lt = {
.uuid_index = 0,
.cfg = {
.output_format = "normal",
},
.base_range_bits = BASE_RANGE_BITS_4_1,
.bucket_list_size = BUCKET_LIST_SIZE_4_1,
.has_average_latency_field = false,
};
OPT_ARGS(opts) = {
OPT_FLAG("enable", 'e', <.cfg.enable, "Enable Latency Tracking"),
OPT_FLAG("disable", 'd', <.cfg.disable, "Disable Latency Tracking"),
OPT_FLAG("read", 'r', <.cfg.read, "Get read statistics"),
OPT_FLAG("write", 'w', <.cfg.write, "Get write statistics"),
OPT_BYTE("type", 't', <.cfg.type, "Log type to get"),
OPT_FMT("output-format", 'o', <.cfg.output_format, output_format),
OPT_END()
};
err = parse_and_open(&dev, argc, argv, desc, opts);
if (err)
return err;
lt.fd = dev_fd(dev);
err = validate_output_format(lt.cfg.output_format, <.print_flags);
if (err < 0) {
fprintf(stderr, "Invalid output format '%s'\n", lt.cfg.output_format);
dev_close(dev);
return -EINVAL;
}
if (lt.cfg.type > 0xf) {
fprintf(stderr, "Invalid Log type value '%d'\n", lt.cfg.type);
dev_close(dev);
return -EINVAL;
}
if (lt.cfg.type && !(lt.cfg.read || lt.cfg.write)) {
fprintf(stderr, "Log type option valid only when retrieving statistics\n");
dev_close(dev);
return -EINVAL;
}
sldgm_get_uuid_index(dev, <.uuid_index);
err = latency_tracking_enable(<);
if (err) {
dev_close(dev);
return err;
}
err = latency_tracker_get_log(<);
if (err) {
dev_close(dev);
return err;
}
if ((lt.cfg.read || lt.cfg.write || lt.cfg.enable || lt.cfg.disable)) {
dev_close(dev);
return 0;
}
err = latency_tracking_is_enable(<, &enabled);
if (!err) {
if (lt.print_flags == JSON) {
struct json_object *root = json_create_object();
json_object_add_value_int(root, "enabled", enabled);
json_print_object(root, NULL);
json_free_object(root);
printf("\n");
} else if (lt.print_flags == BINARY) {
putchar(enabled);
} else {
printf("Latency Statistics Tracking (UUID-idx:%d, FID:0x%X) is currently %i.\n",
lt.uuid_index, LATENCY_TRACKING_FID, enabled);
}
} else {
fprintf(stderr, "Could not read feature id 0xE2.\n");
}
/* Redundant close() to make static code analysis happy */
close(dev->direct.fd);
dev_close(dev);
return err;
}
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