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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-10 19:41:32 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-10 19:41:32 +0000 |
commit | f26f66d866ba1a9f3204e6fdfe2b07e67b5492ad (patch) | |
tree | c953c007cbe4f60a147ab62f97937d58abb2e9ca /plugins/scaleflux | |
parent | Initial commit. (diff) | |
download | nvme-cli-f26f66d866ba1a9f3204e6fdfe2b07e67b5492ad.tar.xz nvme-cli-f26f66d866ba1a9f3204e6fdfe2b07e67b5492ad.zip |
Adding upstream version 2.8.upstream/2.8
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'plugins/scaleflux')
-rw-r--r-- | plugins/scaleflux/sfx-nvme.c | 1687 | ||||
-rw-r--r-- | plugins/scaleflux/sfx-nvme.h | 26 |
2 files changed, 1713 insertions, 0 deletions
diff --git a/plugins/scaleflux/sfx-nvme.c b/plugins/scaleflux/sfx-nvme.c new file mode 100644 index 0000000..f752d5d --- /dev/null +++ b/plugins/scaleflux/sfx-nvme.c @@ -0,0 +1,1687 @@ +// SPDX-License-Identifier: GPL-2.0-or-later +#include <fcntl.h> +#include <errno.h> +#include <stdio.h> +#include <stdlib.h> +#include <string.h> +#include <unistd.h> +#include <linux/fs.h> +#include <inttypes.h> +#include <asm/byteorder.h> +#include <sys/sysinfo.h> +#include <sys/stat.h> +#include <sys/types.h> +#include <dirent.h> +#include <time.h> + +#include "common.h" +#include "nvme.h" +#include "libnvme.h" +#include "plugin.h" +#include "linux/types.h" +#include "nvme-wrap.h" +#include "nvme-print.h" +#include "util/cleanup.h" + +#define CREATE_CMD +#include "sfx-nvme.h" + +#define SFX_PAGE_SHIFT 12 +#define SECTOR_SHIFT 9 + +#define SFX_GET_FREESPACE _IOWR('N', 0x240, struct sfx_freespace_ctx) +#define NVME_IOCTL_CLR_CARD _IO('N', 0x47) + +#define IDEMA_CAP(exp_GB) (((__u64)exp_GB - 50ULL) * 1953504ULL + 97696368ULL) +#define IDEMA_CAP2GB(exp_sector) (((__u64)exp_sector - 97696368ULL) / 1953504ULL + 50ULL) + +#define VANDA_MAJOR_IDX 0 +#define VANDA_MINOR_IDX 0 + +#define MYRTLE_MAJOR_IDX 4 +#define MYRTLE_MINOR_IDX 1 + +enum { + SFX_LOG_LATENCY_READ_STATS = 0xc1, + SFX_LOG_SMART = 0xc2, + SFX_LOG_LATENCY_WRITE_STATS = 0xc3, + SFX_LOG_QUAL = 0xc4, + SFX_LOG_MISMATCHLBA = 0xc5, + SFX_LOG_MEDIA = 0xc6, + SFX_LOG_BBT = 0xc7, + SFX_LOG_IDENTIFY = 0xcc, + SFX_FEAT_ATOMIC = 0x01, + SFX_FEAT_UP_P_CAP = 0xac, + SFX_FEAT_CLR_CARD = 0xdc, +}; + +enum sfx_nvme_admin_opcode { + nvme_admin_query_cap_info = 0xd3, + nvme_admin_change_cap = 0xd4, + nvme_admin_sfx_set_features = 0xd5, + nvme_admin_sfx_get_features = 0xd6, +}; + +struct sfx_freespace_ctx { + __u64 free_space; + __u64 phy_cap; /* physical capacity, in unit of sector */ + __u64 phy_space; /* physical space considering OP, in unit of sector */ + __u64 user_space; /* user required space, in unit of sector*/ + __u64 hw_used; /* hw space used in 4K */ + __u64 app_written; /* app data written in 4K */ + __u64 out_of_space; + __u64 map_unit; + __u64 max_user_space; + __u64 extendible_user_cap_lba_count; + __u64 friendly_change_cap_support; +}; + +struct nvme_capacity_info { + __u64 lba_sec_sz; + __u64 phy_sec_sz; + __u64 used_space; + __u64 free_space; +}; + +struct __packed nvme_additional_smart_log_item { + __u8 key; + __u8 _kp[2]; + __u8 norm; + __u8 _np; + union __packed { + __u8 raw[6]; + struct __packed wear_level { + __le16 min; + __le16 max; + __le16 avg; + } wear_level; + struct __packed thermal_throttle { + __u8 pct; + __u32 count; + } thermal_throttle; + }; + __u8 _rp; +}; + +struct nvme_additional_smart_log { + struct nvme_additional_smart_log_item program_fail_cnt; + struct nvme_additional_smart_log_item erase_fail_cnt; + struct nvme_additional_smart_log_item wear_leveling_cnt; + struct nvme_additional_smart_log_item e2e_err_cnt; + struct nvme_additional_smart_log_item crc_err_cnt; + struct nvme_additional_smart_log_item timed_workload_media_wear; + struct nvme_additional_smart_log_item timed_workload_host_reads; + struct nvme_additional_smart_log_item timed_workload_timer; + struct nvme_additional_smart_log_item thermal_throttle_status; + struct nvme_additional_smart_log_item retry_buffer_overflow_cnt; + struct nvme_additional_smart_log_item pll_lock_loss_cnt; + struct nvme_additional_smart_log_item nand_bytes_written; + struct nvme_additional_smart_log_item host_bytes_written; + struct nvme_additional_smart_log_item raid_recover_cnt; /* errors which can be recovered by RAID */ + struct nvme_additional_smart_log_item prog_timeout_cnt; + struct nvme_additional_smart_log_item erase_timeout_cnt; + struct nvme_additional_smart_log_item read_timeout_cnt; + struct nvme_additional_smart_log_item read_ecc_cnt; /* retry cnt */ + struct nvme_additional_smart_log_item non_media_crc_err_cnt; + struct nvme_additional_smart_log_item compression_path_err_cnt; + struct nvme_additional_smart_log_item out_of_space_flag; + struct nvme_additional_smart_log_item physical_usage_ratio; + struct nvme_additional_smart_log_item grown_bb; /* grown bad block */ +}; + +int nvme_query_cap(int fd, __u32 nsid, __u32 data_len, void *data) +{ + int rc = 0; + struct nvme_passthru_cmd cmd = { + .opcode = nvme_admin_query_cap_info, + .nsid = nsid, + .addr = (__u64)(uintptr_t) data, + .data_len = data_len, + }; + + rc = ioctl(fd, SFX_GET_FREESPACE, data); + return rc ? nvme_submit_admin_passthru(fd, &cmd, NULL) : 0; +} + +int nvme_change_cap(int fd, __u32 nsid, __u64 capacity) +{ + struct nvme_passthru_cmd cmd = { + .opcode = nvme_admin_change_cap, + .nsid = nsid, + .cdw10 = (capacity & 0xffffffff), + .cdw11 = (capacity >> 32), + }; + + return nvme_submit_admin_passthru(fd, &cmd, NULL); +} + +int nvme_sfx_set_features(int fd, __u32 nsid, __u32 fid, __u32 value) +{ + struct nvme_passthru_cmd cmd = { + .opcode = nvme_admin_sfx_set_features, + .nsid = nsid, + .cdw10 = fid, + .cdw11 = value, + }; + + return nvme_submit_admin_passthru(fd, &cmd, NULL); +} + +int nvme_sfx_get_features(int fd, __u32 nsid, __u32 fid, __u32 *result) +{ + int err = 0; + struct nvme_passthru_cmd cmd = { + .opcode = nvme_admin_sfx_get_features, + .nsid = nsid, + .cdw10 = fid, + }; + + err = nvme_submit_admin_passthru(fd, &cmd, NULL); + if (!err && result) + *result = cmd.result; + + return err; +} + +static void show_sfx_smart_log_jsn(struct nvme_additional_smart_log *smart, + unsigned int nsid, const char *devname) +{ + struct json_object *root, *entry_stats, *dev_stats, *multi; + + root = json_create_object(); + json_object_add_value_string(root, "Intel Smart log", devname); + + dev_stats = json_create_object(); + + entry_stats = json_create_object(); + json_object_add_value_int(entry_stats, "normalized", smart->program_fail_cnt.norm); + json_object_add_value_int(entry_stats, "raw", int48_to_long(smart->program_fail_cnt.raw)); + json_object_add_value_object(dev_stats, "program_fail_count", entry_stats); + + entry_stats = json_create_object(); + json_object_add_value_int(entry_stats, "normalized", smart->erase_fail_cnt.norm); + json_object_add_value_int(entry_stats, "raw", int48_to_long(smart->erase_fail_cnt.raw)); + json_object_add_value_object(dev_stats, "erase_fail_count", entry_stats); + + entry_stats = json_create_object(); + json_object_add_value_int(entry_stats, "normalized", smart->wear_leveling_cnt.norm); + multi = json_create_object(); + json_object_add_value_int(multi, "min", le16_to_cpu(smart->wear_leveling_cnt.wear_level.min)); + json_object_add_value_int(multi, "max", le16_to_cpu(smart->wear_leveling_cnt.wear_level.max)); + json_object_add_value_int(multi, "avg", le16_to_cpu(smart->wear_leveling_cnt.wear_level.avg)); + json_object_add_value_object(entry_stats, "raw", multi); + json_object_add_value_object(dev_stats, "wear_leveling", entry_stats); + + entry_stats = json_create_object(); + json_object_add_value_int(entry_stats, "normalized", smart->e2e_err_cnt.norm); + json_object_add_value_int(entry_stats, "raw", int48_to_long(smart->e2e_err_cnt.raw)); + json_object_add_value_object(dev_stats, "end_to_end_error_detection_count", entry_stats); + + entry_stats = json_create_object(); + json_object_add_value_int(entry_stats, "normalized", smart->crc_err_cnt.norm); + json_object_add_value_int(entry_stats, "raw", int48_to_long(smart->crc_err_cnt.raw)); + json_object_add_value_object(dev_stats, "crc_error_count", entry_stats); + + entry_stats = json_create_object(); + json_object_add_value_int(entry_stats, "normalized", smart->timed_workload_media_wear.norm); + json_object_add_value_float(entry_stats, "raw", ((float)int48_to_long(smart->timed_workload_media_wear.raw)) / 1024); + json_object_add_value_object(dev_stats, "timed_workload_media_wear", entry_stats); + + entry_stats = json_create_object(); + json_object_add_value_int(entry_stats, "normalized", smart->timed_workload_host_reads.norm); + json_object_add_value_int(entry_stats, "raw", int48_to_long(smart->timed_workload_host_reads.raw)); + json_object_add_value_object(dev_stats, "timed_workload_host_reads", entry_stats); + + entry_stats = json_create_object(); + json_object_add_value_int(entry_stats, "normalized", smart->timed_workload_timer.norm); + json_object_add_value_int(entry_stats, "raw", int48_to_long(smart->timed_workload_timer.raw)); + json_object_add_value_object(dev_stats, "timed_workload_timer", entry_stats); + + entry_stats = json_create_object(); + json_object_add_value_int(entry_stats, "normalized", smart->thermal_throttle_status.norm); + multi = json_create_object(); + json_object_add_value_int(multi, "pct", smart->thermal_throttle_status.thermal_throttle.pct); + json_object_add_value_int(multi, "cnt", smart->thermal_throttle_status.thermal_throttle.count); + json_object_add_value_object(entry_stats, "raw", multi); + json_object_add_value_object(dev_stats, "thermal_throttle_status", entry_stats); + + entry_stats = json_create_object(); + json_object_add_value_int(entry_stats, "normalized", smart->retry_buffer_overflow_cnt.norm); + json_object_add_value_int(entry_stats, "raw", int48_to_long(smart->retry_buffer_overflow_cnt.raw)); + json_object_add_value_object(dev_stats, "retry_buffer_overflow_count", entry_stats); + + entry_stats = json_create_object(); + json_object_add_value_int(entry_stats, "normalized", smart->pll_lock_loss_cnt.norm); + json_object_add_value_int(entry_stats, "raw", int48_to_long(smart->pll_lock_loss_cnt.raw)); + json_object_add_value_object(dev_stats, "pll_lock_loss_count", entry_stats); + + entry_stats = json_create_object(); + json_object_add_value_int(entry_stats, "normalized", smart->nand_bytes_written.norm); + json_object_add_value_int(entry_stats, "raw", int48_to_long(smart->nand_bytes_written.raw)); + json_object_add_value_object(dev_stats, "nand_bytes_written", entry_stats); + + entry_stats = json_create_object(); + json_object_add_value_int(entry_stats, "normalized", smart->host_bytes_written.norm); + json_object_add_value_int(entry_stats, "raw", int48_to_long(smart->host_bytes_written.raw)); + json_object_add_value_object(dev_stats, "host_bytes_written", entry_stats); + + entry_stats = json_create_object(); + json_object_add_value_int(entry_stats, "normalized", smart->raid_recover_cnt.norm); + json_object_add_value_int(entry_stats, "raw", int48_to_long(smart->raid_recover_cnt.raw)); + json_object_add_value_object(dev_stats, "raid_recover_cnt", entry_stats); + + entry_stats = json_create_object(); + json_object_add_value_int(entry_stats, "normalized", smart->prog_timeout_cnt.norm); + json_object_add_value_int(entry_stats, "raw", int48_to_long(smart->prog_timeout_cnt.raw)); + json_object_add_value_object(dev_stats, "prog_timeout_cnt", entry_stats); + + entry_stats = json_create_object(); + json_object_add_value_int(entry_stats, "normalized", smart->erase_timeout_cnt.norm); + json_object_add_value_int(entry_stats, "raw", int48_to_long(smart->erase_timeout_cnt.raw)); + json_object_add_value_object(dev_stats, "erase_timeout_cnt", entry_stats); + + entry_stats = json_create_object(); + json_object_add_value_int(entry_stats, "normalized", smart->read_timeout_cnt.norm); + json_object_add_value_int(entry_stats, "raw", int48_to_long(smart->read_timeout_cnt.raw)); + json_object_add_value_object(dev_stats, "read_timeout_cnt", entry_stats); + + entry_stats = json_create_object(); + json_object_add_value_int(entry_stats, "normalized", smart->read_ecc_cnt.norm); + json_object_add_value_int(entry_stats, "raw", int48_to_long(smart->read_ecc_cnt.raw)); + json_object_add_value_object(dev_stats, "read_ecc_cnt", entry_stats); + + entry_stats = json_create_object(); + json_object_add_value_int(entry_stats, "normalized", smart->non_media_crc_err_cnt.norm); + json_object_add_value_int(entry_stats, "raw", int48_to_long(smart->non_media_crc_err_cnt.raw)); + json_object_add_value_object(dev_stats, "non_media_crc_err_cnt", entry_stats); + + entry_stats = json_create_object(); + json_object_add_value_int(entry_stats, "normalized", smart->compression_path_err_cnt.norm); + json_object_add_value_int(entry_stats, "raw", int48_to_long(smart->compression_path_err_cnt.raw)); + json_object_add_value_object(dev_stats, "compression_path_err_cnt", entry_stats); + + entry_stats = json_create_object(); + json_object_add_value_int(entry_stats, "normalized", smart->out_of_space_flag.norm); + json_object_add_value_int(entry_stats, "raw", int48_to_long(smart->out_of_space_flag.raw)); + json_object_add_value_object(dev_stats, "out_of_space_flag", entry_stats); + + entry_stats = json_create_object(); + json_object_add_value_int(entry_stats, "normalized", smart->physical_usage_ratio.norm); + json_object_add_value_int(entry_stats, "raw", int48_to_long(smart->physical_usage_ratio.raw)); + json_object_add_value_object(dev_stats, "physical_usage_ratio", entry_stats); + + entry_stats = json_create_object(); + json_object_add_value_int(entry_stats, "normalized", smart->grown_bb.norm); + json_object_add_value_int(entry_stats, "raw", int48_to_long(smart->grown_bb.raw)); + json_object_add_value_object(dev_stats, "grown_bb", entry_stats); + + json_object_add_value_object(root, "Device stats", dev_stats); + + json_print_object(root, NULL); + printf("/n"); + json_free_object(root); +} + +static void show_sfx_smart_log(struct nvme_additional_smart_log *smart, + unsigned int nsid, const char *devname) +{ + printf("Additional Smart Log for ScaleFlux device:%s namespace-id:%x\n", + devname, nsid); + printf("key normalized raw\n"); + printf("program_fail_count : %3d%% %"PRIu64"\n", + smart->program_fail_cnt.norm, + int48_to_long(smart->program_fail_cnt.raw)); + printf("erase_fail_count : %3d%% %"PRIu64"\n", + smart->erase_fail_cnt.norm, + int48_to_long(smart->erase_fail_cnt.raw)); + printf("wear_leveling : %3d%% min: %u, max: %u, avg: %u\n", + smart->wear_leveling_cnt.norm, + le16_to_cpu(smart->wear_leveling_cnt.wear_level.min), + le16_to_cpu(smart->wear_leveling_cnt.wear_level.max), + le16_to_cpu(smart->wear_leveling_cnt.wear_level.avg)); + printf("end_to_end_error_detection_count: %3d%% %"PRIu64"\n", + smart->e2e_err_cnt.norm, + int48_to_long(smart->e2e_err_cnt.raw)); + printf("crc_error_count : %3d%% %"PRIu64"\n", + smart->crc_err_cnt.norm, + int48_to_long(smart->crc_err_cnt.raw)); + printf("timed_workload_media_wear : %3d%% %.3f%%\n", + smart->timed_workload_media_wear.norm, + ((float)int48_to_long(smart->timed_workload_media_wear.raw)) / 1024); + printf("timed_workload_host_reads : %3d%% %"PRIu64"%%\n", + smart->timed_workload_host_reads.norm, + int48_to_long(smart->timed_workload_host_reads.raw)); + printf("timed_workload_timer : %3d%% %"PRIu64" min\n", + smart->timed_workload_timer.norm, + int48_to_long(smart->timed_workload_timer.raw)); + printf("thermal_throttle_status : %3d%% %u%%, cnt: %u\n", + smart->thermal_throttle_status.norm, + smart->thermal_throttle_status.thermal_throttle.pct, + smart->thermal_throttle_status.thermal_throttle.count); + printf("retry_buffer_overflow_count : %3d%% %"PRIu64"\n", + smart->retry_buffer_overflow_cnt.norm, + int48_to_long(smart->retry_buffer_overflow_cnt.raw)); + printf("pll_lock_loss_count : %3d%% %"PRIu64"\n", + smart->pll_lock_loss_cnt.norm, + int48_to_long(smart->pll_lock_loss_cnt.raw)); + printf("nand_bytes_written : %3d%% sectors: %"PRIu64"\n", + smart->nand_bytes_written.norm, + int48_to_long(smart->nand_bytes_written.raw)); + printf("host_bytes_written : %3d%% sectors: %"PRIu64"\n", + smart->host_bytes_written.norm, + int48_to_long(smart->host_bytes_written.raw)); + printf("raid_recover_cnt : %3d%% %"PRIu64"\n", + smart->raid_recover_cnt.norm, + int48_to_long(smart->raid_recover_cnt.raw)); + printf("read_ecc_cnt : %3d%% %"PRIu64"\n", + smart->read_ecc_cnt.norm, + int48_to_long(smart->read_ecc_cnt.raw)); + printf("prog_timeout_cnt : %3d%% %"PRIu64"\n", + smart->prog_timeout_cnt.norm, + int48_to_long(smart->prog_timeout_cnt.raw)); + printf("erase_timeout_cnt : %3d%% %"PRIu64"\n", + smart->erase_timeout_cnt.norm, + int48_to_long(smart->erase_timeout_cnt.raw)); + printf("read_timeout_cnt : %3d%% %"PRIu64"\n", + smart->read_timeout_cnt.norm, + int48_to_long(smart->read_timeout_cnt.raw)); + printf("non_media_crc_err_cnt : %3d%% %" PRIu64 "\n", + smart->non_media_crc_err_cnt.norm, + int48_to_long(smart->non_media_crc_err_cnt.raw)); + printf("compression_path_err_cnt : %3d%% %" PRIu64 "\n", + smart->compression_path_err_cnt.norm, + int48_to_long(smart->compression_path_err_cnt.raw)); + printf("out_of_space_flag : %3d%% %" PRIu64 "\n", + smart->out_of_space_flag.norm, + int48_to_long(smart->out_of_space_flag.raw)); + printf("phy_capacity_used_ratio : %3d%% %" PRIu64 "\n", + smart->physical_usage_ratio.norm, + int48_to_long(smart->physical_usage_ratio.raw)); + printf("grown_bb_count : %3d%% %" PRIu64 "\n", + smart->grown_bb.norm, int48_to_long(smart->grown_bb.raw)); + + +} + +static int get_additional_smart_log(int argc, char **argv, struct command *cmd, struct plugin *plugin) +{ + struct nvme_additional_smart_log smart_log; + char *desc = + "Get ScaleFlux vendor specific additional smart log (optionally, for the specified namespace), and show it."; + const char *namespace = "(optional) desired namespace"; + const char *raw = "dump output in binary format"; + const char *json = "Dump output in json format"; + struct nvme_dev *dev; + struct config { + __u32 namespace_id; + bool raw_binary; + bool json; + }; + int err; + + struct config cfg = { + .namespace_id = 0xffffffff, + }; + + OPT_ARGS(opts) = { + OPT_UINT("namespace-id", 'n', &cfg.namespace_id, namespace), + OPT_FLAG("raw-binary", 'b', &cfg.raw_binary, raw), + OPT_FLAG("json", 'j', &cfg.json, json), + OPT_END() + }; + + + err = parse_and_open(&dev, argc, argv, desc, opts); + if (err) + return err; + + err = nvme_get_nsid_log(dev_fd(dev), false, 0xca, cfg.namespace_id, + sizeof(smart_log), (void *)&smart_log); + if (!err) { + if (cfg.json) + show_sfx_smart_log_jsn(&smart_log, cfg.namespace_id, + dev->name); + else if (!cfg.raw_binary) + show_sfx_smart_log(&smart_log, cfg.namespace_id, + dev->name); + else + d_raw((unsigned char *)&smart_log, sizeof(smart_log)); + } else if (err > 0) { + nvme_show_status(err); + } + dev_close(dev); + return err; +} + +struct __packed sfx_lat_stats_vanda { + __u16 maj; + __u16 min; + __u32 bucket_1[32]; /* 0~1ms, step 32us */ + __u32 bucket_2[31]; /* 1~32ms, step 1ms */ + __u32 bucket_3[31]; /* 32ms~1s, step 32ms */ + __u32 bucket_4[1]; /* 1s~2s, specifically 1024ms~2047ms */ + __u32 bucket_5[1]; /* 2s~4s, specifically 2048ms~4095ms */ + __u32 bucket_6[1]; /* 4s+, specifically 4096ms+ */ +}; + +struct __packed sfx_lat_stats_myrtle { + __u16 maj; + __u16 min; + __u32 bucket_1[64]; /* 0us~63us, step 1us */ + __u32 bucket_2[64]; /* 63us~127us, step 1us */ + __u32 bucket_3[64]; /* 127us~255us, step 2us */ + __u32 bucket_4[64]; /* 255us~510us, step 4us */ + __u32 bucket_5[64]; /* 510us~1.02ms step 8us */ + __u32 bucket_6[64]; /* 1.02ms~2.04ms step 16us */ + __u32 bucket_7[64]; /* 2.04ms~4.08ms step 32us */ + __u32 bucket_8[64]; /* 4.08ms~8.16ms step 64us */ + __u32 bucket_9[64]; /* 8.16ms~16.32ms step 128us */ + __u32 bucket_10[64]; /* 16.32ms~32.64ms step 256us */ + __u32 bucket_11[64]; /* 32.64ms~65.28ms step 512us */ + __u32 bucket_12[64]; /* 65.28ms~130.56ms step 1.024ms */ + __u32 bucket_13[64]; /* 130.56ms~261.12ms step 2.048ms */ + __u32 bucket_14[64]; /* 261.12ms~522.24ms step 4.096ms */ + __u32 bucket_15[64]; /* 522.24ms~1.04s step 8.192ms */ + __u32 bucket_16[64]; /* 1.04s~2.09s step 16.384ms */ + __u32 bucket_17[64]; /* 2.09s~4.18s step 32.768ms */ + __u32 bucket_18[64]; /* 4.18s~8.36s step 65.536ms */ + __u32 bucket_19[64]; /* 8.36s~ step 131.072ms */ + __u64 average; /* average latency statistics */ +}; + + +struct __packed sfx_lat_status_ver { + __u16 maj; + __u16 min; +}; + +struct sfx_lat_stats { + union { + struct sfx_lat_status_ver ver; + struct sfx_lat_stats_vanda vanda; + struct sfx_lat_stats_myrtle myrtle; + }; +}; + +static void show_lat_stats_vanda(struct sfx_lat_stats_vanda *stats, int write) +{ + int i; + + printf("ScaleFlux IO %s Command Latency Statistics\n", write ? "Write" : "Read"); + printf("-------------------------------------\n"); + printf("Major Revision : %u\n", stats->maj); + printf("Minor Revision : %u\n", stats->min); + + printf("\nGroup 1: Range is 0-1ms, step is 32us\n"); + for (i = 0; i < 32; i++) + printf("Bucket %2d: %u\n", i, stats->bucket_1[i]); + + printf("\nGroup 2: Range is 1-32ms, step is 1ms\n"); + for (i = 0; i < 31; i++) + printf("Bucket %2d: %u\n", i, stats->bucket_2[i]); + + printf("\nGroup 3: Range is 32ms-1s, step is 32ms:\n"); + for (i = 0; i < 31; i++) + printf("Bucket %2d: %u\n", i, stats->bucket_3[i]); + + printf("\nGroup 4: Range is 1s-2s:\n"); + printf("Bucket %2d: %u\n", 0, stats->bucket_4[0]); + + printf("\nGroup 5: Range is 2s-4s:\n"); + printf("Bucket %2d: %u\n", 0, stats->bucket_5[0]); + + printf("\nGroup 6: Range is 4s+:\n"); + printf("Bucket %2d: %u\n", 0, stats->bucket_6[0]); +} + +static void show_lat_stats_myrtle(struct sfx_lat_stats_myrtle *stats, int write) +{ + int i; + + printf("ScaleFlux IO %s Command Latency Statistics\n", write ? "Write" : "Read"); + printf("-------------------------------------\n"); + printf("Major Revision : %u\n", stats->maj); + printf("Minor Revision : %u\n", stats->min); + + printf("\nGroup 1: Range is 0us~63us, step 1us\n"); + for (i = 0; i < 64; i++) + printf("Bucket %2d: %u\n", i, stats->bucket_1[i]); + + printf("\nGroup 2: Range is 63us~127us, step 1us\n"); + for (i = 0; i < 64; i++) + printf("Bucket %2d: %u\n", i, stats->bucket_2[i]); + + printf("\nGroup 3: Range is 127us~255us, step 2us\n"); + for (i = 0; i < 64; i++) + printf("Bucket %2d: %u\n", i, stats->bucket_3[i]); + + printf("\nGroup 4: Range is 255us~510us, step 4us\n"); + for (i = 0; i < 64; i++) + printf("Bucket %2d: %u\n", i, stats->bucket_4[i]); + + printf("\nGroup 5: Range is 510us~1.02ms step\n"); + for (i = 0; i < 64; i++) + printf("Bucket %2d: %u\n", i, stats->bucket_5[i]); + + printf("\nGroup 6: Range is 1.02ms~2.04ms step 16us\n"); + for (i = 0; i < 64; i++) + printf("Bucket %2d: %u\n", i, stats->bucket_6[i]); + + printf("\nGroup 7: Range is 2.04ms~4.08ms step 32us\n"); + for (i = 0; i < 64; i++) + printf("Bucket %2d: %u\n", i, stats->bucket_7[i]); + + printf("\nGroup 8: Range is 4.08ms~8.16ms step 64us\n"); + for (i = 0; i < 64; i++) + printf("Bucket %2d: %u\n", i, stats->bucket_8[i]); + + printf("\nGroup 9: Range is 8.16ms~16.32ms step 128us\n"); + for (i = 0; i < 64; i++) + printf("Bucket %2d: %u\n", i, stats->bucket_9[i]); + + printf("\nGroup 10: Range is 16.32ms~32.64ms step 256us\n"); + for (i = 0; i < 64; i++) + printf("Bucket %2d: %u\n", i, stats->bucket_10[i]); + + printf("\nGroup 11: Range is 32.64ms~65.28ms step 512us\n"); + for (i = 0; i < 64; i++) + printf("Bucket %2d: %u\n", i, stats->bucket_11[i]); + + printf("\nGroup 12: Range is 65.28ms~130.56ms step 1.024ms\n"); + for (i = 0; i < 64; i++) + printf("Bucket %2d: %u\n", i, stats->bucket_12[i]); + + printf("\nGroup 13: Range is 130.56ms~261.12ms step 2.048ms\n"); + for (i = 0; i < 64; i++) + printf("Bucket %2d: %u\n", i, stats->bucket_13[i]); + + printf("\nGroup 14: Range is 261.12ms~522.24ms step 4.096ms\n"); + for (i = 0; i < 64; i++) + printf("Bucket %2d: %u\n", i, stats->bucket_14[i]); + + printf("\nGroup 15: Range is 522.24ms~1.04s step 8.192ms\n"); + for (i = 0; i < 64; i++) + printf("Bucket %2d: %u\n", i, stats->bucket_15[i]); + + printf("\nGroup 16: Range is 1.04s~2.09s step 16.384ms\n"); + for (i = 0; i < 64; i++) + printf("Bucket %2d: %u\n", i, stats->bucket_16[i]); + + printf("\nGroup 17: Range is 2.09s~4.18s step 32.768ms\n"); + for (i = 0; i < 64; i++) + printf("Bucket %2d: %u\n", i, stats->bucket_17[i]); + + printf("\nGroup 18: Range is 4.18s~8.36s step 65.536ms\n"); + for (i = 0; i < 64; i++) + printf("Bucket %2d: %u\n", i, stats->bucket_18[i]); + + printf("\nGroup 19: Range is 8.36s~ step 131.072ms\n"); + for (i = 0; i < 64; i++) + printf("Bucket %2d: %u\n", i, stats->bucket_19[i]); + + printf("\nAverage latency statistics %" PRIu64 "\n", + (uint64_t)stats->average); +} + + +static int get_lat_stats_log(int argc, char **argv, struct command *cmd, struct plugin *plugin) +{ + struct sfx_lat_stats stats; + char *desc = "Get ScaleFlux Latency Statistics log and show it."; + const char *raw = "dump output in binary format"; + const char *write = "Get write statistics (read default)"; + struct nvme_dev *dev; + struct config { + bool raw_binary; + bool write; + }; + int err; + + struct config cfg = { + }; + + OPT_ARGS(opts) = { + OPT_FLAG("write", 'w', &cfg.write, write), + OPT_FLAG("raw-binary", 'b', &cfg.raw_binary, raw), + OPT_END() + }; + + err = parse_and_open(&dev, argc, argv, desc, opts); + if (err) + return err; + + err = nvme_get_log_simple(dev_fd(dev), cfg.write ? 0xc3 : 0xc1, + sizeof(stats), (void *)&stats); + if (!err) { + if ((stats.ver.maj == VANDA_MAJOR_IDX) && (stats.ver.min == VANDA_MINOR_IDX)) { + if (!cfg.raw_binary) + show_lat_stats_vanda(&stats.vanda, cfg.write); + else + d_raw((unsigned char *)&stats.vanda, sizeof(struct sfx_lat_stats_vanda)); + } else if ((stats.ver.maj == MYRTLE_MAJOR_IDX) && (stats.ver.min == MYRTLE_MINOR_IDX)) { + if (!cfg.raw_binary) + show_lat_stats_myrtle(&stats.myrtle, cfg.write); + else + d_raw((unsigned char *)&stats.myrtle, sizeof(struct sfx_lat_stats_myrtle)); + } else { + printf("ScaleFlux IO %s Command Latency Statistics Invalid Version Maj %d Min %d\n", + cfg.write ? "Write" : "Read", stats.ver.maj, stats.ver.min); + } + } else if (err > 0) { + nvme_show_status(err); + } + dev_close(dev); + return err; +} + +int sfx_nvme_get_log(int fd, __u32 nsid, __u8 log_id, __u32 data_len, void *data) +{ + struct nvme_passthru_cmd cmd = { + .opcode = nvme_admin_get_log_page, + .nsid = nsid, + .addr = (__u64)(uintptr_t) data, + .data_len = data_len, + }; + __u32 numd = (data_len >> 2) - 1; + __u16 numdu = numd >> 16, numdl = numd & 0xffff; + + cmd.cdw10 = log_id | (numdl << 16); + cmd.cdw11 = numdu; + + return nvme_submit_admin_passthru(fd, &cmd, NULL); +} + +/** + * @brief get bb table through admin_passthru + * + * @param fd + * @param buf + * @param size + * + * @return -1 fail ; 0 success + */ +static int get_bb_table(int fd, __u32 nsid, unsigned char *buf, __u64 size) +{ + if (fd < 0 || !buf || size != 256*4096*sizeof(unsigned char)) { + fprintf(stderr, "Invalid Param \r\n"); + return -EINVAL; + } + + return sfx_nvme_get_log(fd, nsid, SFX_LOG_BBT, size, (void *)buf); +} + +/** + * @brief display bb table + * + * @param bd_table buffer that contain bb table dumped from drvier + * @param table_size buffer size (BYTES), should at least has 8 bytes for mf_bb_count and grown_bb_count + */ +static void bd_table_show(unsigned char *bd_table, __u64 table_size) +{ + __u32 mf_bb_count = 0; + __u32 grown_bb_count = 0; + __u32 total_bb_count = 0; + __u32 remap_mfbb_count = 0; + __u32 remap_gbb_count = 0; + __u64 *bb_elem; + __u64 *elem_end = (__u64 *)(bd_table + table_size); + __u64 i; + + /*buf should at least have 8bytes for mf_bb_count & total_bb_count*/ + if (!bd_table || table_size < sizeof(__u64)) + return; + + mf_bb_count = *((__u32 *)bd_table); + grown_bb_count = *((__u32 *)(bd_table + sizeof(__u32))); + total_bb_count = *((__u32 *)(bd_table + 2 * sizeof(__u32))); + remap_mfbb_count = *((__u32 *)(bd_table + 3 * sizeof(__u32))); + remap_gbb_count = *((__u32 *)(bd_table + 4 * sizeof(__u32))); + bb_elem = (__u64 *)(bd_table + 5 * sizeof(__u32)); + + printf("Bad Block Table\n"); + printf("MF_BB_COUNT: %u\n", mf_bb_count); + printf("GROWN_BB_COUNT: %u\n", grown_bb_count); + printf("TOTAL_BB_COUNT: %u\n", total_bb_count); + printf("REMAP_MFBB_COUNT: %u\n", remap_mfbb_count); + printf("REMAP_GBB_COUNT: %u\n", remap_gbb_count); + + printf("REMAP_MFBB_TABLE ["); + i = 0; + while (bb_elem < elem_end && i < remap_mfbb_count) { + printf(" 0x%"PRIx64"", (uint64_t)*(bb_elem++)); + i++; + } + printf(" ]\n"); + + printf("REMAP_GBB_TABLE ["); + i = 0; + while (bb_elem < elem_end && i < remap_gbb_count) { + printf(" 0x%"PRIx64"", (uint64_t)*(bb_elem++)); + i++; + } + printf(" ]\n"); +} + +/** + * @brief "hooks of sfx get-bad-block" + * + * @param argc + * @param argv + * @param cmd + * @param plugin + * + * @return + */ +static int sfx_get_bad_block(int argc, char **argv, struct command *cmd, struct plugin *plugin) +{ + const __u64 buf_size = 256*4096*sizeof(unsigned char); + unsigned char *data_buf; + struct nvme_dev *dev; + int err = 0; + + char *desc = "Get bad block table of sfx block device."; + + OPT_ARGS(opts) = { + OPT_END() + }; + + err = parse_and_open(&dev, argc, argv, desc, opts); + if (err) + return err; + + data_buf = malloc(buf_size); + if (!data_buf) { + fprintf(stderr, "malloc fail, errno %d\r\n", errno); + dev_close(dev); + return -1; + } + + err = get_bb_table(dev_fd(dev), 0xffffffff, data_buf, buf_size); + if (err < 0) { + perror("get-bad-block"); + } else if (err) { + nvme_show_status(err); + } else { + bd_table_show(data_buf, buf_size); + printf("ScaleFlux get bad block table: success\n"); + } + + free(data_buf); + dev_close(dev); + return 0; +} + +static void show_cap_info(struct sfx_freespace_ctx *ctx) +{ + + printf("logic capacity:%5lluGB(0x%"PRIx64")\n", + IDEMA_CAP2GB(ctx->user_space), (uint64_t)ctx->user_space); + printf("provisioned capacity:%5lluGB(0x%"PRIx64")\n", + IDEMA_CAP2GB(ctx->phy_space), (uint64_t)ctx->phy_space); + printf("free provisioned capacity:%5lluGB(0x%"PRIx64")\n", + IDEMA_CAP2GB(ctx->free_space), (uint64_t)ctx->free_space); + printf("used provisioned capacity:%5lluGB(0x%"PRIx64")\n", + IDEMA_CAP2GB(ctx->phy_space) - IDEMA_CAP2GB(ctx->free_space), + (uint64_t)(ctx->phy_space - ctx->free_space)); + printf("map_unit :0x%"PRIx64"K\n", (uint64_t)(ctx->map_unit * 4)); +} + +static int query_cap_info(int argc, char **argv, struct command *cmd, struct plugin *plugin) +{ + struct sfx_freespace_ctx ctx = { 0 }; + char *desc = "query current capacity info"; + const char *raw = "dump output in binary format"; + struct nvme_dev *dev; + struct config { + bool raw_binary; + }; + struct config cfg; + int err = 0; + + OPT_ARGS(opts) = { + OPT_FLAG("raw-binary", 'b', &cfg.raw_binary, raw), + OPT_END() + }; + + err = parse_and_open(&dev, argc, argv, desc, opts); + if (err) + return err; + + if (nvme_query_cap(dev_fd(dev), 0xffffffff, sizeof(ctx), &ctx)) { + perror("sfx-query-cap"); + err = -1; + } + + if (!err) { + if (!cfg.raw_binary) + show_cap_info(&ctx); + else + d_raw((unsigned char *)&ctx, sizeof(ctx)); + } + dev_close(dev); + return err; +} + +static int change_sanity_check(int fd, __u64 trg_in_4k, int *shrink) +{ + struct sfx_freespace_ctx freespace_ctx = { 0 }; + struct sysinfo s_info; + __u64 mem_need = 0; + __u64 cur_in_4k = 0; + __u64 provisoned_cap_4k = 0; + int extend = 0; + + if (nvme_query_cap(fd, 0xffffffff, sizeof(freespace_ctx), &freespace_ctx)) + return -1; + + /* + * capacity illegal check + */ + provisoned_cap_4k = freespace_ctx.phy_space >> + (SFX_PAGE_SHIFT - SECTOR_SHIFT); + if (trg_in_4k < provisoned_cap_4k || + trg_in_4k > ((__u64)provisoned_cap_4k * 4)) { + fprintf(stderr, + "WARNING: Only support 1.0~4.0 x provisioned capacity!\n"); + if (trg_in_4k < provisoned_cap_4k) + fprintf(stderr, + "WARNING: The target capacity is less than 1.0 x provisioned capacity!\n"); + else + fprintf(stderr, + "WARNING: The target capacity is larger than 4.0 x provisioned capacity!\n"); + return -1; + } + if (trg_in_4k > ((__u64)provisoned_cap_4k*4)) { + fprintf(stderr, "WARNING: the target capacity is too large\n"); + return -1; + } + + /* + * check whether mem enough if extend + */ + cur_in_4k = freespace_ctx.user_space >> (SFX_PAGE_SHIFT - SECTOR_SHIFT); + extend = (cur_in_4k <= trg_in_4k); + if (extend) { + if (sysinfo(&s_info) < 0) { + printf("change-cap query mem info fail\n"); + return -1; + } + mem_need = (trg_in_4k - cur_in_4k) * 8; + if (s_info.freeram <= 10 || mem_need > s_info.freeram) { + fprintf(stderr, + "WARNING: Free memory is not enough! Please drop cache or extend more memory and retry\n" + "WARNING: Memory needed is %"PRIu64", free memory is %"PRIu64"\n", + (uint64_t)mem_need, (uint64_t)s_info.freeram); + return -1; + } + } + *shrink = !extend; + + return 0; +} + +/** + * @brief prompt and get user confirm input + * + * @param str, prompt string + * + * @return 0, canceled; 1 confirmed + */ +static int sfx_confirm_change(const char *str) +{ + unsigned char confirm; + + fprintf(stderr, "WARNING: %s.\n" + "Use the force [--force] option to suppress this warning.\n", str); + + fprintf(stderr, "Confirm Y/y, Others cancel:\n"); + confirm = (unsigned char)fgetc(stdin); + if (confirm != 'y' && confirm != 'Y') { + fprintf(stderr, "Canceled.\n"); + return 0; + } + fprintf(stderr, "Sending operation ...\n"); + return 1; +} + +static int change_cap(int argc, char **argv, struct command *cmd, struct plugin *plugin) +{ + char *desc = "dynamic change capacity"; + const char *cap_gb = "cap size in GB"; + const char *cap_byte = "cap size in byte"; + const char *force = "The \"I know what I'm doing\" flag, skip confirmation before sending command"; + struct nvme_dev *dev; + __u64 cap_in_4k = 0; + __u64 cap_in_sec = 0; + int shrink = 0; + int err = -1; + + struct config { + __u64 cap_in_byte; + __u32 capacity_in_gb; + bool force; + }; + + struct config cfg = { + .cap_in_byte = 0, + .capacity_in_gb = 0, + .force = 0, + }; + + OPT_ARGS(opts) = { + OPT_UINT("cap", 'c', &cfg.capacity_in_gb, cap_gb), + OPT_SUFFIX("cap-byte", 'z', &cfg.cap_in_byte, cap_byte), + OPT_FLAG("force", 'f', &cfg.force, force), + OPT_END() + }; + + err = parse_and_open(&dev, argc, argv, desc, opts); + if (err) + return err; + + cap_in_sec = IDEMA_CAP(cfg.capacity_in_gb); + cap_in_4k = cap_in_sec >> 3; + if (cfg.cap_in_byte) + cap_in_4k = cfg.cap_in_byte >> 12; + printf("%dG %"PRIu64"B %"PRIu64" 4K\n", + cfg.capacity_in_gb, (uint64_t)cfg.cap_in_byte, (uint64_t)cap_in_4k); + + if (change_sanity_check(dev_fd(dev), cap_in_4k, &shrink)) { + printf("ScaleFlux change-capacity: fail\n"); + dev_close(dev); + return err; + } + + if (!cfg.force && shrink && !sfx_confirm_change("Changing Cap may irrevocably delete this device's data")) { + dev_close(dev); + return 0; + } + + err = nvme_change_cap(dev_fd(dev), 0xffffffff, cap_in_4k); + if (err < 0) { + perror("sfx-change-cap"); + } else if (err) { + nvme_show_status(err); + } else { + printf("ScaleFlux change-capacity: success\n"); + ioctl(dev_fd(dev), BLKRRPART); + } + dev_close(dev); + return err; +} + +static int sfx_verify_chr(int fd) +{ + static struct stat nvme_stat; + int err = fstat(fd, &nvme_stat); + + if (err < 0) { + perror("fstat"); + return errno; + } + if (!S_ISCHR(nvme_stat.st_mode)) { + fprintf(stderr, + "Error: requesting clean card on non-controller handle\n"); + return -ENOTBLK; + } + return 0; +} + +static int sfx_clean_card(int fd) +{ + int ret; + + ret = sfx_verify_chr(fd); + if (ret) + return ret; + ret = ioctl(fd, NVME_IOCTL_CLR_CARD); + if (ret) + perror("Ioctl Fail."); + else + printf("ScaleFlux clean card success\n"); + + return ret; +} + +char *sfx_feature_to_string(int feature) +{ + switch (feature) { + case SFX_FEAT_ATOMIC: + return "ATOMIC"; + case SFX_FEAT_UP_P_CAP: + return "UPDATE_PROVISION_CAPACITY"; + default: + return "Unknown"; + } +} + +static int sfx_set_feature(int argc, char **argv, struct command *cmd, struct plugin *plugin) +{ + char *desc = "ScaleFlux internal set features\n" + "feature id 1: ATOMIC\n" + "value 0: Disable atomic write\n" + " 1: Enable atomic write"; + const char *value = "new value of feature (required)"; + const char *feature_id = "hex feature name (required)"; + const char *namespace_id = "desired namespace"; + const char *force = "The \"I know what I'm doing\" flag, skip confirmation before sending command"; + struct nvme_dev *dev; + struct nvme_id_ns ns; + int err = 0; + + struct config { + __u32 namespace_id; + __u32 feature_id; + __u32 value; + bool force; + }; + struct config cfg = { + .namespace_id = 1, + .feature_id = 0, + .value = 0, + .force = 0, + }; + + OPT_ARGS(opts) = { + OPT_UINT("namespace-id", 'n', &cfg.namespace_id, namespace_id), + OPT_UINT("feature-id", 'f', &cfg.feature_id, feature_id), + OPT_UINT("value", 'v', &cfg.value, value), + OPT_FLAG("force", 's', &cfg.force, force), + OPT_END() + }; + + err = parse_and_open(&dev, argc, argv, desc, opts); + if (err) + return err; + + if (!cfg.feature_id) { + fprintf(stderr, "feature-id required param\n"); + dev_close(dev); + return -EINVAL; + } + + if (cfg.feature_id == SFX_FEAT_CLR_CARD) { + /*Warning for clean card*/ + if (!cfg.force && !sfx_confirm_change("Going to clean device's data, confirm umount fs and try again")) { + dev_close(dev); + return 0; + } else { + return sfx_clean_card(dev_fd(dev)); + } + + } + + if (cfg.feature_id == SFX_FEAT_ATOMIC && cfg.value) { + if (cfg.namespace_id != 0xffffffff) { + err = nvme_identify_ns(dev_fd(dev), cfg.namespace_id, + &ns); + if (err) { + if (err < 0) + perror("identify-namespace"); + else + nvme_show_status(err); + dev_close(dev); + return err; + } + /* + * atomic only support with sector-size = 4k now + */ + if ((ns.flbas & 0xf) != 1) { + printf("Please change-sector size to 4K, then retry\n"); + dev_close(dev); + return -EFAULT; + } + } + } else if (cfg.feature_id == SFX_FEAT_UP_P_CAP) { + if (cfg.value <= 0) { + fprintf(stderr, "Invalid Param\n"); + dev_close(dev); + return -EINVAL; + } + + /*Warning for change pacp by GB*/ + if (!cfg.force && !sfx_confirm_change("Changing physical capacity may irrevocably delete this device's data")) { + dev_close(dev); + return 0; + } + } + + err = nvme_sfx_set_features(dev_fd(dev), cfg.namespace_id, + cfg.feature_id, + cfg.value); + + if (err < 0) { + perror("ScaleFlux-set-feature"); + dev_close(dev); + return errno; + } else if (!err) { + printf("ScaleFlux set-feature:%#02x (%s), value:%d\n", cfg.feature_id, + sfx_feature_to_string(cfg.feature_id), cfg.value); + } else if (err > 0) { + nvme_show_status(err); + } + + dev_close(dev); + return err; +} + +static int sfx_get_feature(int argc, char **argv, struct command *cmd, struct plugin *plugin) +{ + char *desc = "ScaleFlux internal set features\n" + "feature id 1: ATOMIC"; + const char *feature_id = "hex feature name (required)"; + const char *namespace_id = "desired namespace"; + struct nvme_dev *dev; + __u32 result = 0; + int err = 0; + + struct config { + __u32 namespace_id; + __u32 feature_id; + }; + struct config cfg = { + .namespace_id = 0, + .feature_id = 0, + }; + + OPT_ARGS(opts) = { + OPT_UINT("namespace-id", 'n', &cfg.namespace_id, namespace_id), + OPT_UINT("feature-id", 'f', &cfg.feature_id, feature_id), + OPT_END() + }; + + err = parse_and_open(&dev, argc, argv, desc, opts); + if (err) + return err; + + if (!cfg.feature_id) { + fprintf(stderr, "feature-id required param\n"); + dev_close(dev); + return -EINVAL; + } + + err = nvme_sfx_get_features(dev_fd(dev), cfg.namespace_id, + cfg.feature_id, &result); + if (err < 0) { + perror("ScaleFlux-get-feature"); + dev_close(dev); + return errno; + } else if (!err) { + printf("ScaleFlux get-feature:%02x (%s), value:%d\n", cfg.feature_id, + sfx_feature_to_string(cfg.feature_id), result); + } else if (err > 0) { + nvme_show_status(err); + } + + dev_close(dev); + return err; + +} + +static int nvme_parse_evtlog(void *pevent_log_info, __u32 log_len, char *output) +{ + __u32 offset = 0; + __u32 length = log_len; + __u16 fw_core; + __u64 fw_time; + __u8 code_level; + __u8 code_type; + char str_buffer[512]; + __u32 str_pos; + FILE *fd; + int err = 0; + + enum sfx_evtlog_level { + sfx_evtlog_level_warning, + sfx_evtlog_level_error, + }; + + const char *sfx_evtlog_warning[4] = { + "RESERVED", + "TOO_MANY_BB", + "LOW_SPACE", + "HIGH_TEMPERATURE" + }; + + const char *sfx_evtlog_error[14] = { + "RESERVED", + "HAS_ASSERT", + "HAS_PANIC_DUMP", + "INVALID_FORMAT_CAPACITY", + "MAT_FAILED", + "FREEZE_DUE_TO_RECOVERY_FAILED", + "RFS_BROKEN", + "MEDIA_ERR_ON_PAGE_IN", + "MEDIA_ERR_ON_MPAGE_HEADER", + "CAPACITOR_BROKEN", + "READONLY_DUE_TO_RECOVERY_FAILED", + "RD_ERR_IN_GSD_RECOVERY", + "RD_ERR_ON_PF_RECOVERY", + "MEDIA_ERR_ON_FULL_RECOVERY" + }; + + struct sfx_nvme_evtlog_info { + __u16 time_stamp[4]; + __u64 magic1; + __u8 reverse[10]; + char evt_name[32]; + __u64 magic2; + char fw_ver[24]; + char bl2_ver[32]; + __u16 code; + __u16 assert_id; + } __packed; + + struct sfx_nvme_evtlog_info *info = NULL; + + fd = fopen(output, "w+"); + if (!fd) { + fprintf(stderr, "Failed to open %s file to write\n", output); + err = ENOENT; + goto ret; + } + + while (length > 0) { + info = (struct sfx_nvme_evtlog_info *)(pevent_log_info + offset); + + if ((info->magic1 == 0x474F4C545645) && + (info->magic2 == 0x38B0B3ABA9BA)) { + + memset(str_buffer, 0, 512); + str_pos = 0; + + fw_core = info->time_stamp[3]; + snprintf(str_buffer + str_pos, 16, "[%d-", fw_core); + str_pos = strlen(str_buffer); + + fw_time = ((__u64)info->time_stamp[2] << 32) + ((__u64)info->time_stamp[1] << 16) + (__u64)info->time_stamp[0]; + convert_ts(fw_time, str_buffer + str_pos); + str_pos = strlen(str_buffer); + + strcpy(str_buffer + str_pos, "] event-log:\n"); + str_pos = strlen(str_buffer); + + snprintf(str_buffer + str_pos, 128, + " > fw_version: %s\n > bl2_version: %s\n", + info->fw_ver, info->bl2_ver); + str_pos = strlen(str_buffer); + + code_level = (info->code & 0x100) >> 8; + code_type = (info->code % 0x100); + if (code_level == sfx_evtlog_level_warning) { + snprintf(str_buffer + str_pos, 128, + " > error_str: [WARNING][%s]\n\n", + sfx_evtlog_warning[code_type]); + } else { + if (info->assert_id) + snprintf(str_buffer + str_pos, 128, + " > error_str: [ERROR][%s]\n > assert_id: %d\n\n", + sfx_evtlog_error[code_type], info->assert_id); + else + snprintf(str_buffer + str_pos, 128, + " > error_str: [ERROR][%s]\n\n", + sfx_evtlog_error[code_type]); + } + str_pos = strlen(str_buffer); + + if (fwrite(str_buffer, 1, str_pos, fd) != str_pos) { + fprintf(stderr, "Failed to write parse result to output file\n"); + goto close_fd; + } + } + + offset++; + length--; + + if (!(offset % (log_len / 100)) || (offset == log_len)) + util_spinner("Parse", (float) (offset) / (float) (log_len)); + } + + printf("\nParse-evtlog: Success\n"); + +close_fd: + fclose(fd); +ret: + return err; +} + +static int nvme_dump_evtlog(struct nvme_dev *dev, __u32 namespace_id, __u32 storage_medium, + char *file, bool parse, char *output) +{ + struct nvme_persistent_event_log *pevent; + void *pevent_log_info; + _cleanup_huge_ struct nvme_mem_huge mh = { 0, }; + __u8 lsp_base; + __u32 offset = 0; + __u32 length = 0; + __u32 log_len; + __u32 single_len; + int err = 0; + FILE *fd = NULL; + struct nvme_get_log_args args = { + .args_size = sizeof(args), + .fd = dev_fd(dev), + .lid = NVME_LOG_LID_PERSISTENT_EVENT, + .nsid = namespace_id, + .lpo = NVME_LOG_LPO_NONE, + .lsp = NVME_LOG_LSP_NONE, + .lsi = NVME_LOG_LSI_NONE, + .rae = false, + .uuidx = NVME_UUID_NONE, + .csi = NVME_CSI_NVM, + .ot = false, + .len = 0, + .log = NULL, + .timeout = NVME_DEFAULT_IOCTL_TIMEOUT, + .result = NULL, + }; + + if (!storage_medium) { + lsp_base = 0; + single_len = 64 * 1024 - 4; + } else { + lsp_base = 4; + single_len = 32 * 1024; + } + + pevent = calloc(sizeof(*pevent), sizeof(__u8)); + if (!pevent) { + err = -ENOMEM; + goto ret; + } + + args.lsp = lsp_base + NVME_PEVENT_LOG_RELEASE_CTX; + args.log = pevent; + args.len = sizeof(*pevent); + + err = nvme_get_log(&args); + if (err) { + fprintf(stderr, "Unable to get evtlog lsp=0x%x, ret = 0x%x\n", args.lsp, err); + goto free_pevent; + } + + args.lsp = lsp_base + NVME_PEVENT_LOG_EST_CTX_AND_READ; + err = nvme_get_log(&args); + if (err) { + fprintf(stderr, "Unable to get evtlog lsp=0x%x, ret = 0x%x\n", args.lsp, err); + goto free_pevent; + } + + log_len = le64_to_cpu(pevent->tll); + if (log_len % 4) + log_len = (log_len / 4 + 1) * 4; + + pevent_log_info = nvme_alloc_huge(single_len, &mh); + if (!pevent_log_info) { + err = -ENOMEM; + goto free_pevent; + } + + fd = fopen(file, "wb+"); + if (!fd) { + fprintf(stderr, "Failed to open %s file to write\n", file); + err = ENOENT; + goto free_pevent; + } + + args.lsp = lsp_base + NVME_PEVENT_LOG_READ; + args.log = pevent_log_info; + length = log_len; + while (length > 0) { + args.lpo = offset; + if (length > single_len) { + args.len = single_len; + } else { + memset(args.log, 0, args.len); + args.len = length; + } + err = nvme_get_log(&args); + if (err) { + fprintf(stderr, "Unable to get evtlog offset=0x%x len 0x%x ret = 0x%x\n", offset, args.len, err); + goto close_fd; + } + + if (fwrite(args.log, 1, args.len, fd) != args.len) { + fprintf(stderr, "Failed to write evtlog to file\n"); + goto close_fd; + } + + offset += args.len; + length -= args.len; + util_spinner("Parse", (float) (offset) / (float) (log_len)); + } + + printf("\nDump-evtlog: Success\n"); + + if (parse) { + nvme_free_huge(&mh); + pevent_log_info = nvme_alloc_huge(log_len, &mh); + if (!pevent_log_info) { + fprintf(stderr, "Failed to alloc enough memory 0x%x to parse evtlog\n", log_len); + err = -ENOMEM; + goto close_fd; + } + + fclose(fd); + fd = fopen(file, "rb"); + if (!fd) { + fprintf(stderr, "Failed to open %s file to read\n", file); + err = ENOENT; + goto free_pevent; + } + if (fread(pevent_log_info, 1, log_len, fd) != log_len) { + fprintf(stderr, "Failed to read evtlog to buffer\n"); + goto close_fd; + } + + err = nvme_parse_evtlog(pevent_log_info, log_len, output); + } + +close_fd: + fclose(fd); +free_pevent: + free(pevent); +ret: + return err; +} + +static int sfx_dump_evtlog(int argc, char **argv, struct command *cmd, struct plugin *plugin) +{ + char *desc = "dump evtlog into file and parse"; + const char *file = "evtlog file(required)"; + const char *namespace_id = "desired namespace"; + const char *storage_medium = "evtlog storage medium\n" + "0: nand(default) 1: nor"; + const char *parse = "parse error & warning evtlog from evtlog file"; + const char *output = "parse result output file"; + struct nvme_dev *dev; + int err = 0; + + struct config { + char *file; + __u32 namespace_id; + __u32 storage_medium; + bool parse; + char *output; + }; + struct config cfg = { + .file = NULL, + .namespace_id = 0xffffffff, + .storage_medium = 0, + .parse = false, + .output = NULL, + }; + + OPT_ARGS(opts) = { + OPT_FILE("file", 'f', &cfg.file, file), + OPT_UINT("namespace_id", 'n', &cfg.namespace_id, namespace_id), + OPT_UINT("storage_medium", 's', &cfg.storage_medium, storage_medium), + OPT_FLAG("parse", 'p', &cfg.parse, parse), + OPT_FILE("output", 'o', &cfg.output, output), + OPT_END() + }; + + err = parse_and_open(&dev, argc, argv, desc, opts); + if (err) + goto ret; + + if (!cfg.file) { + fprintf(stderr, "file required param\n"); + err = EINVAL; + goto close_dev; + } + + if (cfg.parse && !cfg.output) { + fprintf(stderr, "output file required if evtlog need be parsed\n"); + err = EINVAL; + goto close_dev; + } + + err = nvme_dump_evtlog(dev, cfg.namespace_id, cfg.storage_medium, cfg.file, cfg.parse, cfg.output); + +close_dev: + dev_close(dev); +ret: + return err; +} + +static int nvme_expand_cap(struct nvme_dev *dev, __u32 namespace_id, __u64 namespace_size, + __u64 namespace_cap, __u32 lbaf, __u32 units) +{ + struct dirent **devices; + char dev_name[32] = ""; + int i = 0; + int num = 0; + int err = 0; + + struct sfx_expand_cap_info { + __u64 namespace_size; + __u64 namespace_cap; + __u8 reserve[10]; + __u8 lbaf; + __u8 reserve1[5]; + } __packed; + + if (S_ISCHR(dev->direct.stat.st_mode)) + snprintf(dev_name, 32, "%sn%u", dev->name, namespace_id); + else + strcpy(dev_name, dev->name); + + num = scandir("/dev", &devices, nvme_namespace_filter, alphasort); + if (num <= 0) { + err = num; + goto ret; + } + + if (strcmp(dev_name, devices[num-1]->d_name)) { + fprintf(stderr, "Expand namespace not the last one\n"); + err = EINVAL; + goto free_devices; + } + + if (!units) { + namespace_size = IDEMA_CAP(namespace_size) / (1 << (lbaf * 3)); + namespace_cap = IDEMA_CAP(namespace_cap) / (1 << (lbaf * 3)); + } + + struct sfx_expand_cap_info info = { + .namespace_size = namespace_size, + .namespace_cap = namespace_cap, + .lbaf = lbaf, + }; + + struct nvme_passthru_cmd cmd = { + .opcode = nvme_admin_ns_mgmt, + .nsid = namespace_id, + .addr = (__u64)(uintptr_t)&info, + .data_len = sizeof(info), + .cdw10 = 0x0e, + }; + + err = nvme_submit_admin_passthru(dev_fd(dev), &cmd, NULL); + if (err) { + fprintf(stderr, "Create ns failed\n"); + nvme_show_status(err); + goto free_devices; + } + +free_devices: + for (i = 0; i < num; i++) + free(devices[i]); + free(devices); +ret: + return err; +} + +static int sfx_expand_cap(int argc, char **argv, struct command *cmd, struct plugin *plugin) +{ + char *desc = "expand capacity"; + const char *namespace_id = "desired namespace"; + const char *namespace_size = "namespace size(required)"; + const char *namespace_cap = "namespace capacity(required)"; + const char *lbaf = "LBA format to apply\n" + "0: 512(default) 1: 4096"; + const char *units = "namespace size/capacity units\n" + "0: GB(default) 1: LBA"; + struct nvme_dev *dev; + int err = 0; + + struct config { + __u32 namespace_id; + __u64 namespace_size; + __u64 namespace_cap; + __u32 lbaf; + __u32 units; + }; + struct config cfg = { + .namespace_id = 0xffffffff, + .lbaf = 0, + .units = 0, + }; + + OPT_ARGS(opts) = { + OPT_UINT("namespace_id", 'n', &cfg.namespace_id, namespace_id), + OPT_LONG("namespace_size", 's', &cfg.namespace_size, namespace_size), + OPT_LONG("namespace_cap", 'c', &cfg.namespace_cap, namespace_cap), + OPT_UINT("lbaf", 'l', &cfg.lbaf, lbaf), + OPT_UINT("units", 'u', &cfg.units, units), + OPT_END() + }; + + err = parse_and_open(&dev, argc, argv, desc, opts); + if (err) + goto ret; + + if (cfg.namespace_id == 0xffffffff) { + if (S_ISCHR(dev->direct.stat.st_mode)) { + fprintf(stderr, "namespace_id or blk device required\n"); + err = EINVAL; + goto ret; + } else { + cfg.namespace_id = atoi(&dev->name[strlen(dev->name) - 1]); + } + } + + if (!cfg.namespace_size) { + fprintf(stderr, "namespace_size required param\n"); + err = EINVAL; + goto close_dev; + } + + if (!cfg.namespace_cap) { + fprintf(stderr, "namespace_cap required param\n"); + err = EINVAL; + goto close_dev; + } + + err = nvme_expand_cap(dev, cfg.namespace_id, cfg.namespace_size, cfg.namespace_cap, cfg.lbaf, cfg.units); + if (err) + goto close_dev; + + printf("%s: Success, create nsid:%d\n", cmd->name, cfg.namespace_id); + +close_dev: + dev_close(dev); +ret: + return err; +} diff --git a/plugins/scaleflux/sfx-nvme.h b/plugins/scaleflux/sfx-nvme.h new file mode 100644 index 0000000..53e2217 --- /dev/null +++ b/plugins/scaleflux/sfx-nvme.h @@ -0,0 +1,26 @@ +/* SPDX-License-Identifier: GPL-2.0-or-later */ +#undef CMD_INC_FILE +#define CMD_INC_FILE plugins/scaleflux/sfx-nvme + +#if !defined(SFX_NVME) || defined(CMD_HEADER_MULTI_READ) +#define SFX_NVME + +#include "cmd.h" + +PLUGIN(NAME("sfx", "ScaleFlux vendor specific extensions", NVME_VERSION), + COMMAND_LIST( + ENTRY("smart-log-add", "Retrieve ScaleFlux SMART Log, show it", get_additional_smart_log) + ENTRY("lat-stats", "Retrieve ScaleFlux IO Latency Statistics log, show it", get_lat_stats_log) + ENTRY("get-bad-block", "Retrieve bad block table of block device, show it", sfx_get_bad_block) + ENTRY("query-cap", "Query current capacity info", query_cap_info) + ENTRY("change-cap", "Dynamic change capacity", change_cap) + ENTRY("set-feature", "Set a feature", sfx_set_feature) + ENTRY("get-feature", "Get a feature", sfx_get_feature) + ENTRY("dump-evtlog", "dump evtlog into file and parse warning & error log", sfx_dump_evtlog) + ENTRY("expand-cap", "expand the last namespace capacity lossless", sfx_expand_cap) + ) +); + +#endif + +#include "define_cmd.h" |