// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*- // vim: ts=8 sw=2 smarttab #include "osd_perf_counters.h" #include "include/common_fwd.h" PerfCounters *build_osd_logger(CephContext *cct) { PerfCountersBuilder osd_plb(cct, "osd", l_osd_first, l_osd_last); // Latency axis configuration for op histograms, values are in nanoseconds PerfHistogramCommon::axis_config_d op_hist_x_axis_config{ "Latency (usec)", PerfHistogramCommon::SCALE_LOG2, ///< Latency in logarithmic scale 0, ///< Start at 0 100000, ///< Quantization unit is 100usec 32, ///< Enough to cover much longer than slow requests }; // Op size axis configuration for op histograms, values are in bytes PerfHistogramCommon::axis_config_d op_hist_y_axis_config{ "Request size (bytes)", PerfHistogramCommon::SCALE_LOG2, ///< Request size in logarithmic scale 0, ///< Start at 0 512, ///< Quantization unit is 512 bytes 32, ///< Enough to cover requests larger than GB }; // All the basic OSD operation stats are to be considered useful osd_plb.set_prio_default(PerfCountersBuilder::PRIO_USEFUL); osd_plb.add_u64( l_osd_op_wip, "op_wip", "Replication operations currently being processed (primary)"); osd_plb.add_u64_counter( l_osd_op, "op", "Client operations", "ops", PerfCountersBuilder::PRIO_CRITICAL); osd_plb.add_u64_counter( l_osd_op_inb, "op_in_bytes", "Client operations total write size", "wr", PerfCountersBuilder::PRIO_INTERESTING, unit_t(UNIT_BYTES)); osd_plb.add_u64_counter( l_osd_op_outb, "op_out_bytes", "Client operations total read size", "rd", PerfCountersBuilder::PRIO_INTERESTING, unit_t(UNIT_BYTES)); osd_plb.add_time_avg( l_osd_op_lat, "op_latency", "Latency of client operations (including queue time)", "l", 9); osd_plb.add_time_avg( l_osd_op_process_lat, "op_process_latency", "Latency of client operations (excluding queue time)"); osd_plb.add_time_avg( l_osd_op_prepare_lat, "op_prepare_latency", "Latency of client operations (excluding queue time and wait for finished)"); osd_plb.add_u64_counter( l_osd_op_delayed_unreadable, "op_delayed_unreadable", "Count of ops delayed due to target object being unreadable"); osd_plb.add_u64_counter( l_osd_op_delayed_degraded, "op_delayed_degraded", "Count of ops delayed due to target object being degraded"); osd_plb.add_u64_counter( l_osd_op_r, "op_r", "Client read operations"); osd_plb.add_u64_counter( l_osd_op_r_outb, "op_r_out_bytes", "Client data read", NULL, PerfCountersBuilder::PRIO_USEFUL, unit_t(UNIT_BYTES)); osd_plb.add_time_avg( l_osd_op_r_lat, "op_r_latency", "Latency of read operation (including queue time)"); osd_plb.add_u64_counter_histogram( l_osd_op_r_lat_outb_hist, "op_r_latency_out_bytes_histogram", op_hist_x_axis_config, op_hist_y_axis_config, "Histogram of operation latency (including queue time) + data read"); osd_plb.add_time_avg( l_osd_op_r_process_lat, "op_r_process_latency", "Latency of read operation (excluding queue time)"); osd_plb.add_time_avg( l_osd_op_r_prepare_lat, "op_r_prepare_latency", "Latency of read operations (excluding queue time and wait for finished)"); osd_plb.add_u64_counter( l_osd_op_w, "op_w", "Client write operations"); osd_plb.add_u64_counter( l_osd_op_w_inb, "op_w_in_bytes", "Client data written"); osd_plb.add_time_avg( l_osd_op_w_lat, "op_w_latency", "Latency of write operation (including queue time)"); osd_plb.add_u64_counter_histogram( l_osd_op_w_lat_inb_hist, "op_w_latency_in_bytes_histogram", op_hist_x_axis_config, op_hist_y_axis_config, "Histogram of operation latency (including queue time) + data written"); osd_plb.add_time_avg( l_osd_op_w_process_lat, "op_w_process_latency", "Latency of write operation (excluding queue time)"); osd_plb.add_time_avg( l_osd_op_w_prepare_lat, "op_w_prepare_latency", "Latency of write operations (excluding queue time and wait for finished)"); osd_plb.add_u64_counter( l_osd_op_rw, "op_rw", "Client read-modify-write operations"); osd_plb.add_u64_counter( l_osd_op_rw_inb, "op_rw_in_bytes", "Client read-modify-write operations write in", NULL, PerfCountersBuilder::PRIO_USEFUL, unit_t(UNIT_BYTES)); osd_plb.add_u64_counter( l_osd_op_rw_outb,"op_rw_out_bytes", "Client read-modify-write operations read out ", NULL, PerfCountersBuilder::PRIO_USEFUL, unit_t(UNIT_BYTES)); osd_plb.add_time_avg( l_osd_op_rw_lat, "op_rw_latency", "Latency of read-modify-write operation (including queue time)"); osd_plb.add_u64_counter_histogram( l_osd_op_rw_lat_inb_hist, "op_rw_latency_in_bytes_histogram", op_hist_x_axis_config, op_hist_y_axis_config, "Histogram of rw operation latency (including queue time) + data written"); osd_plb.add_u64_counter_histogram( l_osd_op_rw_lat_outb_hist, "op_rw_latency_out_bytes_histogram", op_hist_x_axis_config, op_hist_y_axis_config, "Histogram of rw operation latency (including queue time) + data read"); osd_plb.add_time_avg( l_osd_op_rw_process_lat, "op_rw_process_latency", "Latency of read-modify-write operation (excluding queue time)"); osd_plb.add_time_avg( l_osd_op_rw_prepare_lat, "op_rw_prepare_latency", "Latency of read-modify-write operations (excluding queue time and wait for finished)"); // Now we move on to some more obscure stats, revert to assuming things // are low priority unless otherwise specified. osd_plb.set_prio_default(PerfCountersBuilder::PRIO_DEBUGONLY); osd_plb.add_time_avg(l_osd_op_before_queue_op_lat, "op_before_queue_op_lat", "Latency of IO before calling queue(before really queue into ShardedOpWq)"); // client io before queue op_wq latency osd_plb.add_time_avg(l_osd_op_before_dequeue_op_lat, "op_before_dequeue_op_lat", "Latency of IO before calling dequeue_op(already dequeued and get PG lock)"); // client io before dequeue_op latency osd_plb.add_u64_counter( l_osd_sop, "subop", "Suboperations"); osd_plb.add_u64_counter( l_osd_sop_inb, "subop_in_bytes", "Suboperations total size", NULL, 0, unit_t(UNIT_BYTES)); osd_plb.add_time_avg(l_osd_sop_lat, "subop_latency", "Suboperations latency"); osd_plb.add_u64_counter(l_osd_sop_w, "subop_w", "Replicated writes"); osd_plb.add_u64_counter( l_osd_sop_w_inb, "subop_w_in_bytes", "Replicated written data size", NULL, 0, unit_t(UNIT_BYTES)); osd_plb.add_time_avg( l_osd_sop_w_lat, "subop_w_latency", "Replicated writes latency"); osd_plb.add_u64_counter( l_osd_sop_pull, "subop_pull", "Suboperations pull requests"); osd_plb.add_time_avg( l_osd_sop_pull_lat, "subop_pull_latency", "Suboperations pull latency"); osd_plb.add_u64_counter( l_osd_sop_push, "subop_push", "Suboperations push messages"); osd_plb.add_u64_counter( l_osd_sop_push_inb, "subop_push_in_bytes", "Suboperations pushed size", NULL, 0, unit_t(UNIT_BYTES)); osd_plb.add_time_avg( l_osd_sop_push_lat, "subop_push_latency", "Suboperations push latency"); osd_plb.add_u64_counter(l_osd_pull, "pull", "Pull requests sent"); osd_plb.add_u64_counter(l_osd_push, "push", "Push messages sent"); osd_plb.add_u64_counter(l_osd_push_outb, "push_out_bytes", "Pushed size", NULL, 0, unit_t(UNIT_BYTES)); osd_plb.add_u64_counter( l_osd_rop, "recovery_ops", "Started recovery operations", "rop", PerfCountersBuilder::PRIO_INTERESTING); osd_plb.add_u64_counter( l_osd_rbytes, "recovery_bytes", "recovery bytes", "rbt", PerfCountersBuilder::PRIO_INTERESTING); osd_plb.add_time_avg( l_osd_recovery_push_queue_lat, "l_osd_recovery_push_queue_latency", "MOSDPGPush queue latency"); osd_plb.add_time_avg( l_osd_recovery_push_reply_queue_lat, "l_osd_recovery_push_reply_queue_latency", "MOSDPGPushReply queue latency"); osd_plb.add_time_avg( l_osd_recovery_pull_queue_lat, "l_osd_recovery_pull_queue_latency", "MOSDPGPull queue latency"); osd_plb.add_time_avg( l_osd_recovery_backfill_queue_lat, "l_osd_recovery_backfill_queue_latency", "MOSDPGBackfill queue latency"); osd_plb.add_time_avg( l_osd_recovery_backfill_remove_queue_lat, "l_osd_recovery_backfill_remove_queue_latency", "MOSDPGBackfillDelete queue latency"); osd_plb.add_time_avg( l_osd_recovery_scan_queue_lat, "l_osd_recovery_scan_queue_latency", "MOSDPGScan queue latency"); osd_plb.add_time_avg( l_osd_recovery_queue_lat, "l_osd_recovery_queue_latency", "PGRecovery queue latency"); osd_plb.add_time_avg( l_osd_recovery_context_queue_lat, "l_osd_recovery_context_queue_latency", "PGRecoveryContext queue latency"); osd_plb.add_u64(l_osd_loadavg, "loadavg", "CPU load"); osd_plb.add_u64( l_osd_cached_crc, "cached_crc", "Total number getting crc from crc_cache"); osd_plb.add_u64( l_osd_cached_crc_adjusted, "cached_crc_adjusted", "Total number getting crc from crc_cache with adjusting"); osd_plb.add_u64(l_osd_missed_crc, "missed_crc", "Total number of crc cache misses"); osd_plb.add_u64(l_osd_pg, "numpg", "Placement groups", "pgs", PerfCountersBuilder::PRIO_USEFUL); osd_plb.add_u64( l_osd_pg_primary, "numpg_primary", "Placement groups for which this osd is primary"); osd_plb.add_u64( l_osd_pg_replica, "numpg_replica", "Placement groups for which this osd is replica"); osd_plb.add_u64( l_osd_pg_stray, "numpg_stray", "Placement groups ready to be deleted from this osd"); osd_plb.add_u64( l_osd_pg_removing, "numpg_removing", "Placement groups queued for local deletion", "pgsr", PerfCountersBuilder::PRIO_USEFUL); osd_plb.add_u64( l_osd_hb_to, "heartbeat_to_peers", "Heartbeat (ping) peers we send to"); osd_plb.add_u64_counter(l_osd_map, "map_messages", "OSD map messages"); osd_plb.add_u64_counter(l_osd_mape, "map_message_epochs", "OSD map epochs"); osd_plb.add_u64_counter( l_osd_mape_dup, "map_message_epoch_dups", "OSD map duplicates"); osd_plb.add_u64_counter( l_osd_waiting_for_map, "messages_delayed_for_map", "Operations waiting for OSD map"); osd_plb.add_u64_counter( l_osd_map_cache_hit, "osd_map_cache_hit", "osdmap cache hit"); osd_plb.add_u64_counter( l_osd_map_cache_miss, "osd_map_cache_miss", "osdmap cache miss"); osd_plb.add_u64_counter( l_osd_map_cache_miss_low, "osd_map_cache_miss_low", "osdmap cache miss below cache lower bound"); osd_plb.add_u64_avg( l_osd_map_cache_miss_low_avg, "osd_map_cache_miss_low_avg", "osdmap cache miss, avg distance below cache lower bound"); osd_plb.add_u64_counter( l_osd_map_bl_cache_hit, "osd_map_bl_cache_hit", "OSDMap buffer cache hits"); osd_plb.add_u64_counter( l_osd_map_bl_cache_miss, "osd_map_bl_cache_miss", "OSDMap buffer cache misses"); osd_plb.add_u64( l_osd_stat_bytes, "stat_bytes", "OSD size", "size", PerfCountersBuilder::PRIO_USEFUL, unit_t(UNIT_BYTES)); osd_plb.add_u64( l_osd_stat_bytes_used, "stat_bytes_used", "Used space", "used", PerfCountersBuilder::PRIO_USEFUL, unit_t(UNIT_BYTES)); osd_plb.add_u64(l_osd_stat_bytes_avail, "stat_bytes_avail", "Available space", NULL, 0, unit_t(UNIT_BYTES)); osd_plb.add_u64_counter( l_osd_copyfrom, "copyfrom", "Rados \"copy-from\" operations"); osd_plb.add_u64_counter(l_osd_tier_promote, "tier_promote", "Tier promotions"); osd_plb.add_u64_counter(l_osd_tier_flush, "tier_flush", "Tier flushes"); osd_plb.add_u64_counter( l_osd_tier_flush_fail, "tier_flush_fail", "Failed tier flushes"); osd_plb.add_u64_counter( l_osd_tier_try_flush, "tier_try_flush", "Tier flush attempts"); osd_plb.add_u64_counter( l_osd_tier_try_flush_fail, "tier_try_flush_fail", "Failed tier flush attempts"); osd_plb.add_u64_counter( l_osd_tier_evict, "tier_evict", "Tier evictions"); osd_plb.add_u64_counter( l_osd_tier_whiteout, "tier_whiteout", "Tier whiteouts"); osd_plb.add_u64_counter( l_osd_tier_dirty, "tier_dirty", "Dirty tier flag set"); osd_plb.add_u64_counter( l_osd_tier_clean, "tier_clean", "Dirty tier flag cleaned"); osd_plb.add_u64_counter( l_osd_tier_delay, "tier_delay", "Tier delays (agent waiting)"); osd_plb.add_u64_counter( l_osd_tier_proxy_read, "tier_proxy_read", "Tier proxy reads"); osd_plb.add_u64_counter( l_osd_tier_proxy_write, "tier_proxy_write", "Tier proxy writes"); osd_plb.add_u64_counter( l_osd_agent_wake, "agent_wake", "Tiering agent wake up"); osd_plb.add_u64_counter( l_osd_agent_skip, "agent_skip", "Objects skipped by agent"); osd_plb.add_u64_counter( l_osd_agent_flush, "agent_flush", "Tiering agent flushes"); osd_plb.add_u64_counter( l_osd_agent_evict, "agent_evict", "Tiering agent evictions"); osd_plb.add_u64_counter( l_osd_object_ctx_cache_hit, "object_ctx_cache_hit", "Object context cache hits"); osd_plb.add_u64_counter( l_osd_object_ctx_cache_total, "object_ctx_cache_total", "Object context cache lookups"); osd_plb.add_u64_counter(l_osd_op_cache_hit, "op_cache_hit"); osd_plb.add_time_avg( l_osd_tier_flush_lat, "osd_tier_flush_lat", "Object flush latency"); osd_plb.add_time_avg( l_osd_tier_promote_lat, "osd_tier_promote_lat", "Object promote latency"); osd_plb.add_time_avg( l_osd_tier_r_lat, "osd_tier_r_lat", "Object proxy read latency"); osd_plb.add_u64_counter( l_osd_pg_info, "osd_pg_info", "PG updated its info (using any method)"); osd_plb.add_u64_counter( l_osd_pg_fastinfo, "osd_pg_fastinfo", "PG updated its info using fastinfo attr"); osd_plb.add_u64_counter( l_osd_pg_biginfo, "osd_pg_biginfo", "PG updated its biginfo attr"); return osd_plb.create_perf_counters(); } PerfCounters *build_recoverystate_perf(CephContext *cct) { PerfCountersBuilder rs_perf(cct, "recoverystate_perf", rs_first, rs_last); rs_perf.add_time_avg(rs_initial_latency, "initial_latency", "Initial recovery state latency"); rs_perf.add_time_avg(rs_started_latency, "started_latency", "Started recovery state latency"); rs_perf.add_time_avg(rs_reset_latency, "reset_latency", "Reset recovery state latency"); rs_perf.add_time_avg(rs_start_latency, "start_latency", "Start recovery state latency"); rs_perf.add_time_avg(rs_primary_latency, "primary_latency", "Primary recovery state latency"); rs_perf.add_time_avg(rs_peering_latency, "peering_latency", "Peering recovery state latency"); rs_perf.add_time_avg(rs_backfilling_latency, "backfilling_latency", "Backfilling recovery state latency"); rs_perf.add_time_avg(rs_waitremotebackfillreserved_latency, "waitremotebackfillreserved_latency", "Wait remote backfill reserved recovery state latency"); rs_perf.add_time_avg(rs_waitlocalbackfillreserved_latency, "waitlocalbackfillreserved_latency", "Wait local backfill reserved recovery state latency"); rs_perf.add_time_avg(rs_notbackfilling_latency, "notbackfilling_latency", "Notbackfilling recovery state latency"); rs_perf.add_time_avg(rs_repnotrecovering_latency, "repnotrecovering_latency", "Repnotrecovering recovery state latency"); rs_perf.add_time_avg(rs_repwaitrecoveryreserved_latency, "repwaitrecoveryreserved_latency", "Rep wait recovery reserved recovery state latency"); rs_perf.add_time_avg(rs_repwaitbackfillreserved_latency, "repwaitbackfillreserved_latency", "Rep wait backfill reserved recovery state latency"); rs_perf.add_time_avg(rs_reprecovering_latency, "reprecovering_latency", "RepRecovering recovery state latency"); rs_perf.add_time_avg(rs_activating_latency, "activating_latency", "Activating recovery state latency"); rs_perf.add_time_avg(rs_waitlocalrecoveryreserved_latency, "waitlocalrecoveryreserved_latency", "Wait local recovery reserved recovery state latency"); rs_perf.add_time_avg(rs_waitremoterecoveryreserved_latency, "waitremoterecoveryreserved_latency", "Wait remote recovery reserved recovery state latency"); rs_perf.add_time_avg(rs_recovering_latency, "recovering_latency", "Recovering recovery state latency"); rs_perf.add_time_avg(rs_recovered_latency, "recovered_latency", "Recovered recovery state latency"); rs_perf.add_time_avg(rs_clean_latency, "clean_latency", "Clean recovery state latency"); rs_perf.add_time_avg(rs_active_latency, "active_latency", "Active recovery state latency"); rs_perf.add_time_avg(rs_replicaactive_latency, "replicaactive_latency", "Replicaactive recovery state latency"); rs_perf.add_time_avg(rs_stray_latency, "stray_latency", "Stray recovery state latency"); rs_perf.add_time_avg(rs_getinfo_latency, "getinfo_latency", "Getinfo recovery state latency"); rs_perf.add_time_avg(rs_getlog_latency, "getlog_latency", "Getlog recovery state latency"); rs_perf.add_time_avg(rs_waitactingchange_latency, "waitactingchange_latency", "Waitactingchange recovery state latency"); rs_perf.add_time_avg(rs_incomplete_latency, "incomplete_latency", "Incomplete recovery state latency"); rs_perf.add_time_avg(rs_down_latency, "down_latency", "Down recovery state latency"); rs_perf.add_time_avg(rs_getmissing_latency, "getmissing_latency", "Getmissing recovery state latency"); rs_perf.add_time_avg(rs_waitupthru_latency, "waitupthru_latency", "Waitupthru recovery state latency"); rs_perf.add_time_avg(rs_notrecovering_latency, "notrecovering_latency", "Notrecovering recovery state latency"); return rs_perf.create_perf_counters(); }