#!/usr/bin/python # # $Id: arc_summary.pl,v 388:e27800740aa2 2011-07-08 02:53:29Z jhell $ # # Copyright (c) 2008 Ben Rockwood , # Copyright (c) 2010 Martin Matuska , # Copyright (c) 2010-2011 Jason J. Hellenthal , # All rights reserved. # # Redistribution and use in source and binary forms, with or without # modification, are permitted provided that the following conditions # are met: # # 1. Redistributions of source code must retain the above copyright # notice, this list of conditions and the following disclaimer. # 2. Redistributions in binary form must reproduce the above copyright # notice, this list of conditions and the following disclaimer in the # documentation and/or other materials provided with the distribution. # # THIS SOFTWARE IS PROVIDED BY AUTHOR AND CONTRIBUTORS ``AS IS'' AND # ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE # IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE # ARE DISCLAIMED. IN NO EVENT SHALL AUTHOR OR CONTRIBUTORS BE LIABLE # FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL # DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS # OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) # HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT # LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY # OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF # SUCH DAMAGE. # # If you are having troubles when using this script from cron(8) please try # adjusting your PATH before reporting problems. # # /usr/bin & /sbin # # Binaries used are: # # dc(1), kldstat(8), sed(1), sysctl(8) & vmstat(8) # # Binaries that I am working on phasing out are: # # dc(1) & sed(1) import sys import time import getopt import re from os import listdir from subprocess import Popen, PIPE from decimal import Decimal as D usetunable = True show_tunable_descriptions = False alternate_tunable_layout = False kstat_pobj = re.compile("^([^:]+):\s+(.+)\s*$", flags=re.M) def get_Kstat(): def load_proc_kstats(fn, namespace): kstats = [line.strip() for line in open(fn)] del kstats[0:2] for kstat in kstats: kstat = kstat.strip() name, unused, value = kstat.split() Kstat[namespace + name] = D(value) Kstat = {} load_proc_kstats('/proc/spl/kstat/zfs/arcstats', 'kstat.zfs.misc.arcstats.') load_proc_kstats('/proc/spl/kstat/zfs/zfetchstats', 'kstat.zfs.misc.zfetchstats.') load_proc_kstats('/proc/spl/kstat/zfs/vdev_cache_stats', 'kstat.zfs.misc.vdev_cache_stats.') return Kstat def div1(): sys.stdout.write("\n") for i in range(18): sys.stdout.write("%s" % "----") sys.stdout.write("\n") def div2(): sys.stdout.write("\n") def fBytes(Bytes=0, Decimal=2): kbytes = (2 ** 10) mbytes = (2 ** 20) gbytes = (2 ** 30) tbytes = (2 ** 40) pbytes = (2 ** 50) ebytes = (2 ** 60) zbytes = (2 ** 70) ybytes = (2 ** 80) if Bytes >= ybytes: return str("%0." + str(Decimal) + "f") % (Bytes / ybytes) + "\tYiB" elif Bytes >= zbytes: return str("%0." + str(Decimal) + "f") % (Bytes / zbytes) + "\tZiB" elif Bytes >= ebytes: return str("%0." + str(Decimal) + "f") % (Bytes / ebytes) + "\tEiB" elif Bytes >= pbytes: return str("%0." + str(Decimal) + "f") % (Bytes / pbytes) + "\tPiB" elif Bytes >= tbytes: return str("%0." + str(Decimal) + "f") % (Bytes / tbytes) + "\tTiB" elif Bytes >= gbytes: return str("%0." + str(Decimal) + "f") % (Bytes / gbytes) + "\tGiB" elif Bytes >= mbytes: return str("%0." + str(Decimal) + "f") % (Bytes / mbytes) + "\tMiB" elif Bytes >= kbytes: return str("%0." + str(Decimal) + "f") % (Bytes / kbytes) + "\tKiB" elif Bytes == 0: return str("%d" % 0) + "\tBytes" else: return str("%d" % Bytes) + "\tBytes" def fHits(Hits=0, Decimal=2): khits = (10 ** 3) mhits = (10 ** 6) bhits = (10 ** 9) thits = (10 ** 12) qhits = (10 ** 15) Qhits = (10 ** 18) shits = (10 ** 21) Shits = (10 ** 24) if Hits >= Shits: return str("%0." + str(Decimal) + "f") % (Hits / Shits) + "S" elif Hits >= shits: return str("%0." + str(Decimal) + "f") % (Hits / shits) + "s" elif Hits >= Qhits: return str("%0." + str(Decimal) + "f") % (Hits / Qhits) + "Q" elif Hits >= qhits: return str("%0." + str(Decimal) + "f") % (Hits / qhits) + "q" elif Hits >= thits: return str("%0." + str(Decimal) + "f") % (Hits / thits) + "t" elif Hits >= bhits: return str("%0." + str(Decimal) + "f") % (Hits / bhits) + "b" elif Hits >= mhits: return str("%0." + str(Decimal) + "f") % (Hits / mhits) + "m" elif Hits >= khits: return str("%0." + str(Decimal) + "f") % (Hits / khits) + "k" elif Hits == 0: return str("%d" % 0) else: return str("%d" % Hits) def fPerc(lVal=0, rVal=0, Decimal=2): if rVal > 0: return str("%0." + str(Decimal) + "f") % (100 * (lVal / rVal)) + "%" else: return str("%0." + str(Decimal) + "f") % 100 + "%" def get_arc_summary(Kstat): output = {} memory_throttle_count = Kstat[ "kstat.zfs.misc.arcstats.memory_throttle_count" ] if memory_throttle_count > 0: output['health'] = 'THROTTLED' else: output['health'] = 'HEALTHY' output['memory_throttle_count'] = fHits(memory_throttle_count) # ARC Misc. deleted = Kstat["kstat.zfs.misc.arcstats.deleted"] mutex_miss = Kstat["kstat.zfs.misc.arcstats.mutex_miss"] # ARC Misc. output["arc_misc"] = {} output["arc_misc"]["deleted"] = fHits(deleted) output["arc_misc"]['mutex_miss'] = fHits(mutex_miss) output["arc_misc"]['evict_skips'] = fHits(mutex_miss) # ARC Sizing arc_size = Kstat["kstat.zfs.misc.arcstats.size"] mru_size = Kstat["kstat.zfs.misc.arcstats.p"] target_max_size = Kstat["kstat.zfs.misc.arcstats.c_max"] target_min_size = Kstat["kstat.zfs.misc.arcstats.c_min"] target_size = Kstat["kstat.zfs.misc.arcstats.c"] target_size_ratio = (target_max_size / target_min_size) # ARC Sizing output['arc_sizing'] = {} output['arc_sizing']['arc_size'] = { 'per': fPerc(arc_size, target_max_size), 'num': fBytes(arc_size), } output['arc_sizing']['target_max_size'] = { 'ratio': target_size_ratio, 'num': fBytes(target_max_size), } output['arc_sizing']['target_min_size'] = { 'per': fPerc(target_min_size, target_max_size), 'num': fBytes(target_min_size), } output['arc_sizing']['target_size'] = { 'per': fPerc(target_size, target_max_size), 'num': fBytes(target_size), } # ARC Hash Breakdown output['arc_hash_break'] = {} output['arc_hash_break']['hash_chain_max'] = Kstat[ "kstat.zfs.misc.arcstats.hash_chain_max" ] output['arc_hash_break']['hash_chains'] = Kstat[ "kstat.zfs.misc.arcstats.hash_chains" ] output['arc_hash_break']['hash_collisions'] = Kstat[ "kstat.zfs.misc.arcstats.hash_collisions" ] output['arc_hash_break']['hash_elements'] = Kstat[ "kstat.zfs.misc.arcstats.hash_elements" ] output['arc_hash_break']['hash_elements_max'] = Kstat[ "kstat.zfs.misc.arcstats.hash_elements_max" ] output['arc_size_break'] = {} if arc_size > target_size: mfu_size = (arc_size - mru_size) output['arc_size_break']['recently_used_cache_size'] = { 'per': fPerc(mru_size, arc_size), 'num': fBytes(mru_size), } output['arc_size_break']['frequently_used_cache_size'] = { 'per': fPerc(mfu_size, arc_size), 'num': fBytes(mfu_size), } elif arc_size < target_size: mfu_size = (target_size - mru_size) output['arc_size_break']['recently_used_cache_size'] = { 'per': fPerc(mru_size, target_size), 'num': fBytes(mru_size), } output['arc_size_break']['frequently_used_cache_size'] = { 'per': fPerc(mfu_size, target_size), 'num': fBytes(mfu_size), } # ARC Hash Breakdown hash_chain_max = Kstat["kstat.zfs.misc.arcstats.hash_chain_max"] hash_chains = Kstat["kstat.zfs.misc.arcstats.hash_chains"] hash_collisions = Kstat["kstat.zfs.misc.arcstats.hash_collisions"] hash_elements = Kstat["kstat.zfs.misc.arcstats.hash_elements"] hash_elements_max = Kstat["kstat.zfs.misc.arcstats.hash_elements_max"] output['arc_hash_break'] = {} output['arc_hash_break']['elements_max'] = fHits(hash_elements_max) output['arc_hash_break']['elements_current'] = { 'per': fPerc(hash_elements, hash_elements_max), 'num': fHits(hash_elements), } output['arc_hash_break']['collisions'] = fHits(hash_collisions) output['arc_hash_break']['chain_max'] = fHits(hash_chain_max) output['arc_hash_break']['chains'] = fHits(hash_chains) return output def _arc_summary(Kstat): # ARC Sizing arc = get_arc_summary(Kstat) sys.stdout.write("ARC Summary: (%s)\n" % arc['health']) sys.stdout.write("\tMemory Throttle Count:\t\t\t%s\n" % arc['memory_throttle_count']) sys.stdout.write("\n") # ARC Misc. sys.stdout.write("ARC Misc:\n") sys.stdout.write("\tDeleted:\t\t\t\t%s\n" % arc['arc_misc']['deleted']) sys.stdout.write("\tMutex Misses:\t\t\t\t%s\n" % arc['arc_misc']['mutex_miss']) sys.stdout.write("\tEvict Skips:\t\t\t\t%s\n" % arc['arc_misc']['mutex_miss']) sys.stdout.write("\n") # ARC Sizing sys.stdout.write("ARC Size:\t\t\t\t%s\t%s\n" % ( arc['arc_sizing']['arc_size']['per'], arc['arc_sizing']['arc_size']['num'] ) ) sys.stdout.write("\tTarget Size: (Adaptive)\t\t%s\t%s\n" % ( arc['arc_sizing']['target_size']['per'], arc['arc_sizing']['target_size']['num'], ) ) sys.stdout.write("\tMin Size (Hard Limit):\t\t%s\t%s\n" % ( arc['arc_sizing']['target_min_size']['per'], arc['arc_sizing']['target_min_size']['num'], ) ) sys.stdout.write("\tMax Size (High Water):\t\t%d:1\t%s\n" % ( arc['arc_sizing']['target_max_size']['ratio'], arc['arc_sizing']['target_max_size']['num'], ) ) sys.stdout.write("\nARC Size Breakdown:\n") sys.stdout.write("\tRecently Used Cache Size:\t%s\t%s\n" % ( arc['arc_size_break']['recently_used_cache_size']['per'], arc['arc_size_break']['recently_used_cache_size']['num'], ) ) sys.stdout.write("\tFrequently Used Cache Size:\t%s\t%s\n" % ( arc['arc_size_break']['frequently_used_cache_size']['per'], arc['arc_size_break']['frequently_used_cache_size']['num'], ) ) sys.stdout.write("\n") # ARC Hash Breakdown sys.stdout.write("ARC Hash Breakdown:\n") sys.stdout.write("\tElements Max:\t\t\t\t%s\n" % arc['arc_hash_break']['elements_max']) sys.stdout.write("\tElements Current:\t\t%s\t%s\n" % ( arc['arc_hash_break']['elements_current']['per'], arc['arc_hash_break']['elements_current']['num'], ) ) sys.stdout.write("\tCollisions:\t\t\t\t%s\n" % arc['arc_hash_break']['collisions']) sys.stdout.write("\tChain Max:\t\t\t\t%s\n" % arc['arc_hash_break']['chain_max']) sys.stdout.write("\tChains:\t\t\t\t\t%s\n" % arc['arc_hash_break']['chains']) def get_arc_efficiency(Kstat): output = {} arc_hits = Kstat["kstat.zfs.misc.arcstats.hits"] arc_misses = Kstat["kstat.zfs.misc.arcstats.misses"] demand_data_hits = Kstat["kstat.zfs.misc.arcstats.demand_data_hits"] demand_data_misses = Kstat["kstat.zfs.misc.arcstats.demand_data_misses"] demand_metadata_hits = Kstat[ "kstat.zfs.misc.arcstats.demand_metadata_hits" ] demand_metadata_misses = Kstat[ "kstat.zfs.misc.arcstats.demand_metadata_misses" ] mfu_ghost_hits = Kstat["kstat.zfs.misc.arcstats.mfu_ghost_hits"] mfu_hits = Kstat["kstat.zfs.misc.arcstats.mfu_hits"] mru_ghost_hits = Kstat["kstat.zfs.misc.arcstats.mru_ghost_hits"] mru_hits = Kstat["kstat.zfs.misc.arcstats.mru_hits"] prefetch_data_hits = Kstat["kstat.zfs.misc.arcstats.prefetch_data_hits"] prefetch_data_misses = Kstat[ "kstat.zfs.misc.arcstats.prefetch_data_misses" ] prefetch_metadata_hits = Kstat[ "kstat.zfs.misc.arcstats.prefetch_metadata_hits" ] prefetch_metadata_misses = Kstat[ "kstat.zfs.misc.arcstats.prefetch_metadata_misses" ] anon_hits = arc_hits - ( mfu_hits + mru_hits + mfu_ghost_hits + mru_ghost_hits ) arc_accesses_total = (arc_hits + arc_misses) demand_data_total = (demand_data_hits + demand_data_misses) prefetch_data_total = (prefetch_data_hits + prefetch_data_misses) real_hits = (mfu_hits + mru_hits) output["total_accesses"] = fHits(arc_accesses_total) output["cache_hit_ratio"] = { 'per': fPerc(arc_hits, arc_accesses_total), 'num': fHits(arc_hits), } output["cache_miss_ratio"] = { 'per': fPerc(arc_misses, arc_accesses_total), 'num': fHits(arc_misses), } output["actual_hit_ratio"] = { 'per': fPerc(real_hits, arc_accesses_total), 'num': fHits(real_hits), } output["data_demand_efficiency"] = { 'per': fPerc(demand_data_hits, demand_data_total), 'num': fHits(demand_data_total), } if prefetch_data_total > 0: output["data_prefetch_efficiency"] = { 'per': fPerc(prefetch_data_hits, prefetch_data_total), 'num': fHits(prefetch_data_total), } if anon_hits > 0: output["cache_hits_by_cache_list"] = {} output["cache_hits_by_cache_list"]["anonymously_used"] = { 'per': fPerc(anon_hits, arc_hits), 'num': fHits(anon_hits), } output["most_recently_used"] = { 'per': fPerc(mru_hits, arc_hits), 'num': fHits(mru_hits), } output["most_frequently_used"] = { 'per': fPerc(mfu_hits, arc_hits), 'num': fHits(mfu_hits), } output["most_recently_used_ghost"] = { 'per': fPerc(mru_ghost_hits, arc_hits), 'num': fHits(mru_ghost_hits), } output["most_frequently_used_ghost"] = { 'per': fPerc(mfu_ghost_hits, arc_hits), 'num': fHits(mfu_ghost_hits), } output["cache_hits_by_data_type"] = {} output["cache_hits_by_data_type"]["demand_data"] = { 'per': fPerc(demand_data_hits, arc_hits), 'num': fHits(demand_data_hits), } output["cache_hits_by_data_type"]["prefetch_data"] = { 'per': fPerc(prefetch_data_hits, arc_hits), 'num': fHits(prefetch_data_hits), } output["cache_hits_by_data_type"]["demand_metadata"] = { 'per': fPerc(demand_metadata_hits, arc_hits), 'num': fHits(demand_metadata_hits), } output["cache_hits_by_data_type"]["prefetch_metadata"] = { 'per': fPerc(prefetch_metadata_hits, arc_hits), 'num': fHits(prefetch_metadata_hits), } output["cache_misses_by_data_type"] = {} output["cache_misses_by_data_type"]["demand_data"] = { 'per': fPerc(demand_data_misses, arc_misses), 'num': fHits(demand_data_misses), } output["cache_misses_by_data_type"]["prefetch_data"] = { 'per': fPerc(prefetch_data_misses, arc_misses), 'num': fHits(prefetch_data_misses), } output["cache_misses_by_data_type"]["demand_metadata"] = { 'per': fPerc(demand_metadata_misses, arc_misses), 'num': fHits(demand_metadata_misses), } output["cache_misses_by_data_type"]["prefetch_metadata"] = { 'per': fPerc(prefetch_metadata_misses, arc_misses), 'num': fHits(prefetch_metadata_misses), } return output def _arc_efficiency(Kstat): arc = get_arc_efficiency(Kstat) sys.stdout.write("ARC Total accesses:\t\t\t\t\t%s\n" % arc['total_accesses']) sys.stdout.write("\tCache Hit Ratio:\t\t%s\t%s\n" % ( arc['cache_hit_ratio']['per'], arc['cache_hit_ratio']['num'], ) ) sys.stdout.write("\tCache Miss Ratio:\t\t%s\t%s\n" % ( arc['cache_miss_ratio']['per'], arc['cache_miss_ratio']['num'], ) ) sys.stdout.write("\tActual Hit Ratio:\t\t%s\t%s\n" % ( arc['actual_hit_ratio']['per'], arc['actual_hit_ratio']['num'], ) ) sys.stdout.write("\n") sys.stdout.write("\tData Demand Efficiency:\t\t%s\t%s\n" % ( arc['data_demand_efficiency']['per'], arc['data_demand_efficiency']['num'], ) ) if 'data_prefetch_efficiency' in arc: sys.stdout.write("\tData Prefetch Efficiency:\t%s\t%s\n" % ( arc['data_prefetch_efficiency']['per'], arc['data_prefetch_efficiency']['num'], ) ) sys.stdout.write("\n") sys.stdout.write("\tCACHE HITS BY CACHE LIST:\n") if 'cache_hits_by_cache_list' in arc: sys.stdout.write("\t Anonymously Used:\t\t%s\t%s\n" % ( arc['cache_hits_by_cache_list']['anonymously_used']['per'], arc['cache_hits_by_cache_list']['anonymously_used']['num'], ) ) sys.stdout.write("\t Most Recently Used:\t\t%s\t%s\n" % ( arc['most_recently_used']['per'], arc['most_recently_used']['num'], ) ) sys.stdout.write("\t Most Frequently Used:\t\t%s\t%s\n" % ( arc['most_frequently_used']['per'], arc['most_frequently_used']['num'], ) ) sys.stdout.write("\t Most Recently Used Ghost:\t%s\t%s\n" % ( arc['most_recently_used_ghost']['per'], arc['most_recently_used_ghost']['num'], ) ) sys.stdout.write("\t Most Frequently Used Ghost:\t%s\t%s\n" % ( arc['most_frequently_used_ghost']['per'], arc['most_frequently_used_ghost']['num'], ) ) sys.stdout.write("\n\tCACHE HITS BY DATA TYPE:\n") sys.stdout.write("\t Demand Data:\t\t\t%s\t%s\n" % ( arc["cache_hits_by_data_type"]['demand_data']['per'], arc["cache_hits_by_data_type"]['demand_data']['num'], ) ) sys.stdout.write("\t Prefetch Data:\t\t%s\t%s\n" % ( arc["cache_hits_by_data_type"]['prefetch_data']['per'], arc["cache_hits_by_data_type"]['prefetch_data']['num'], ) ) sys.stdout.write("\t Demand Metadata:\t\t%s\t%s\n" % ( arc["cache_hits_by_data_type"]['demand_metadata']['per'], arc["cache_hits_by_data_type"]['demand_metadata']['num'], ) ) sys.stdout.write("\t Prefetch Metadata:\t\t%s\t%s\n" % ( arc["cache_hits_by_data_type"]['prefetch_metadata']['per'], arc["cache_hits_by_data_type"]['prefetch_metadata']['num'], ) ) sys.stdout.write("\n\tCACHE MISSES BY DATA TYPE:\n") sys.stdout.write("\t Demand Data:\t\t\t%s\t%s\n" % ( arc["cache_misses_by_data_type"]['demand_data']['per'], arc["cache_misses_by_data_type"]['demand_data']['num'], ) ) sys.stdout.write("\t Prefetch Data:\t\t%s\t%s\n" % ( arc["cache_misses_by_data_type"]['prefetch_data']['per'], arc["cache_misses_by_data_type"]['prefetch_data']['num'], ) ) sys.stdout.write("\t Demand Metadata:\t\t%s\t%s\n" % ( arc["cache_misses_by_data_type"]['demand_metadata']['per'], arc["cache_misses_by_data_type"]['demand_metadata']['num'], ) ) sys.stdout.write("\t Prefetch Metadata:\t\t%s\t%s\n" % ( arc["cache_misses_by_data_type"]['prefetch_metadata']['per'], arc["cache_misses_by_data_type"]['prefetch_metadata']['num'], ) ) def get_l2arc_summary(Kstat): output = {} l2_abort_lowmem = Kstat["kstat.zfs.misc.arcstats.l2_abort_lowmem"] l2_cksum_bad = Kstat["kstat.zfs.misc.arcstats.l2_cksum_bad"] l2_evict_lock_retry = Kstat["kstat.zfs.misc.arcstats.l2_evict_lock_retry"] l2_evict_reading = Kstat["kstat.zfs.misc.arcstats.l2_evict_reading"] l2_feeds = Kstat["kstat.zfs.misc.arcstats.l2_feeds"] l2_free_on_write = Kstat["kstat.zfs.misc.arcstats.l2_free_on_write"] l2_hdr_size = Kstat["kstat.zfs.misc.arcstats.l2_hdr_size"] l2_hits = Kstat["kstat.zfs.misc.arcstats.l2_hits"] l2_io_error = Kstat["kstat.zfs.misc.arcstats.l2_io_error"] l2_misses = Kstat["kstat.zfs.misc.arcstats.l2_misses"] l2_rw_clash = Kstat["kstat.zfs.misc.arcstats.l2_rw_clash"] l2_size = Kstat["kstat.zfs.misc.arcstats.l2_size"] l2_asize = Kstat["kstat.zfs.misc.arcstats.l2_asize"] l2_writes_done = Kstat["kstat.zfs.misc.arcstats.l2_writes_done"] l2_writes_error = Kstat["kstat.zfs.misc.arcstats.l2_writes_error"] l2_writes_sent = Kstat["kstat.zfs.misc.arcstats.l2_writes_sent"] l2_access_total = (l2_hits + l2_misses) output['l2_health_count'] = (l2_writes_error + l2_cksum_bad + l2_io_error) output['l2_access_total'] = l2_access_total output['l2_size'] = l2_size output['l2_asize'] = l2_asize if l2_size > 0 and l2_access_total > 0: if output['l2_health_count'] > 0: output["health"] = "DEGRADED" else: output["health"] = "HEALTHY" output["low_memory_aborts"] = fHits(l2_abort_lowmem) output["free_on_write"] = fHits(l2_free_on_write) output["rw_clashes"] = fHits(l2_rw_clash) output["bad_checksums"] = fHits(l2_cksum_bad) output["io_errors"] = fHits(l2_io_error) output["l2_arc_size"] = {} output["l2_arc_size"]["adative"] = fBytes(l2_size) output["l2_arc_size"]["actual"] = { 'per': fPerc(l2_asize, l2_size), 'num': fBytes(l2_asize) } output["l2_arc_size"]["head_size"] = { 'per': fPerc(l2_hdr_size, l2_size), 'num': fBytes(l2_hdr_size), } output["l2_arc_evicts"] = {} output["l2_arc_evicts"]['lock_retries'] = fHits(l2_evict_lock_retry) output["l2_arc_evicts"]['reading'] = fHits(l2_evict_reading) output['l2_arc_breakdown'] = {} output['l2_arc_breakdown']['value'] = fHits(l2_access_total) output['l2_arc_breakdown']['hit_ratio'] = { 'per': fPerc(l2_hits, l2_access_total), 'num': fHits(l2_hits), } output['l2_arc_breakdown']['miss_ratio'] = { 'per': fPerc(l2_misses, l2_access_total), 'num': fHits(l2_misses), } output['l2_arc_breakdown']['feeds'] = fHits(l2_feeds) output['l2_arc_buffer'] = {} output['l2_arc_writes'] = {} output['l2_writes_done'] = l2_writes_done output['l2_writes_sent'] = l2_writes_sent if l2_writes_done != l2_writes_sent: output['l2_arc_writes']['writes_sent'] = { 'value': "FAULTED", 'num': fHits(l2_writes_sent), } output['l2_arc_writes']['done_ratio'] = { 'per': fPerc(l2_writes_done, l2_writes_sent), 'num': fHits(l2_writes_done), } output['l2_arc_writes']['error_ratio'] = { 'per': fPerc(l2_writes_error, l2_writes_sent), 'num': fHits(l2_writes_error), } else: output['l2_arc_writes']['writes_sent'] = { 'per': fPerc(100), 'num': fHits(l2_writes_sent), } return output def _l2arc_summary(Kstat): arc = get_l2arc_summary(Kstat) if arc['l2_size'] > 0 and arc['l2_access_total'] > 0: sys.stdout.write("L2 ARC Summary: ") if arc['l2_health_count'] > 0: sys.stdout.write("(DEGRADED)\n") else: sys.stdout.write("(HEALTHY)\n") sys.stdout.write("\tLow Memory Aborts:\t\t\t%s\n" % arc['low_memory_aborts']) sys.stdout.write("\tFree on Write:\t\t\t\t%s\n" % arc['free_on_write']) sys.stdout.write("\tR/W Clashes:\t\t\t\t%s\n" % arc['rw_clashes']) sys.stdout.write("\tBad Checksums:\t\t\t\t%s\n" % arc['bad_checksums']) sys.stdout.write("\tIO Errors:\t\t\t\t%s\n" % arc['io_errors']) sys.stdout.write("\n") sys.stdout.write("L2 ARC Size: (Adaptive)\t\t\t\t%s\n" % arc["l2_arc_size"]["adative"]) sys.stdout.write("\tCompressed:\t\t\t%s\t%s\n" % ( arc["l2_arc_size"]["actual"]["per"], arc["l2_arc_size"]["actual"]["num"], ) ) sys.stdout.write("\tHeader Size:\t\t\t%s\t%s\n" % ( arc["l2_arc_size"]["head_size"]["per"], arc["l2_arc_size"]["head_size"]["num"], ) ) sys.stdout.write("\n") if arc["l2_arc_evicts"]['lock_retries'] + \ arc["l2_arc_evicts"]["reading"] > 0: sys.stdout.write("L2 ARC Evicts:\n") sys.stdout.write("\tLock Retries:\t\t\t\t%s\n" % arc["l2_arc_evicts"]['lock_retries']) sys.stdout.write("\tUpon Reading:\t\t\t\t%s\n" % arc["l2_arc_evicts"]["reading"]) sys.stdout.write("\n") sys.stdout.write("L2 ARC Breakdown:\t\t\t\t%s\n" % arc['l2_arc_breakdown']['value']) sys.stdout.write("\tHit Ratio:\t\t\t%s\t%s\n" % ( arc['l2_arc_breakdown']['hit_ratio']['per'], arc['l2_arc_breakdown']['hit_ratio']['num'], ) ) sys.stdout.write("\tMiss Ratio:\t\t\t%s\t%s\n" % ( arc['l2_arc_breakdown']['miss_ratio']['per'], arc['l2_arc_breakdown']['miss_ratio']['num'], ) ) sys.stdout.write("\tFeeds:\t\t\t\t\t%s\n" % arc['l2_arc_breakdown']['feeds']) sys.stdout.write("\n") sys.stdout.write("L2 ARC Writes:\n") if arc['l2_writes_done'] != arc['l2_writes_sent']: sys.stdout.write("\tWrites Sent: (%s)\t\t\t\t%s\n" % ( arc['l2_arc_writes']['writes_sent']['value'], arc['l2_arc_writes']['writes_sent']['num'], ) ) sys.stdout.write("\t Done Ratio:\t\t\t%s\t%s\n" % ( arc['l2_arc_writes']['done_ratio']['per'], arc['l2_arc_writes']['done_ratio']['num'], ) ) sys.stdout.write("\t Error Ratio:\t\t\t%s\t%s\n" % ( arc['l2_arc_writes']['error_ratio']['per'], arc['l2_arc_writes']['error_ratio']['num'], ) ) else: sys.stdout.write("\tWrites Sent:\t\t\t%s\t%s\n" % ( arc['l2_arc_writes']['writes_sent']['per'], arc['l2_arc_writes']['writes_sent']['num'], ) ) def get_dmu_summary(Kstat): output = {} zfetch_hits = Kstat["kstat.zfs.misc.zfetchstats.hits"] zfetch_misses = Kstat["kstat.zfs.misc.zfetchstats.misses"] zfetch_access_total = (zfetch_hits + zfetch_misses) output['zfetch_access_total'] = zfetch_access_total if zfetch_access_total > 0: output['dmu'] = {} output['dmu']['efficiency'] = {} output['dmu']['efficiency']['value'] = fHits(zfetch_access_total) output['dmu']['efficiency']['hit_ratio'] = { 'per': fPerc(zfetch_hits, zfetch_access_total), 'num': fHits(zfetch_hits), } output['dmu']['efficiency']['miss_ratio'] = { 'per': fPerc(zfetch_misses, zfetch_access_total), 'num': fHits(zfetch_misses), } return output def _dmu_summary(Kstat): arc = get_dmu_summary(Kstat) if arc['zfetch_access_total'] > 0: sys.stdout.write("DMU Prefetch Efficiency:\t\t\t\t\t%s\n" % arc['dmu']['efficiency']['value']) sys.stdout.write("\tHit Ratio:\t\t\t%s\t%s\n" % ( arc['dmu']['efficiency']['hit_ratio']['per'], arc['dmu']['efficiency']['hit_ratio']['num'], ) ) sys.stdout.write("\tMiss Ratio:\t\t\t%s\t%s\n" % ( arc['dmu']['efficiency']['miss_ratio']['per'], arc['dmu']['efficiency']['miss_ratio']['num'], ) ) sys.stdout.write("\n") def get_vdev_summary(Kstat): output = {} vdev_cache_delegations = \ Kstat["kstat.zfs.misc.vdev_cache_stats.delegations"] vdev_cache_misses = Kstat["kstat.zfs.misc.vdev_cache_stats.misses"] vdev_cache_hits = Kstat["kstat.zfs.misc.vdev_cache_stats.hits"] vdev_cache_total = (vdev_cache_misses + vdev_cache_hits + vdev_cache_delegations) output['vdev_cache_total'] = vdev_cache_total if vdev_cache_total > 0: output['summary'] = fHits(vdev_cache_total) output['hit_ratio'] = { 'per': fPerc(vdev_cache_hits, vdev_cache_total), 'num': fHits(vdev_cache_hits), } output['miss_ratio'] = { 'per': fPerc(vdev_cache_misses, vdev_cache_total), 'num': fHits(vdev_cache_misses), } output['delegations'] = { 'per': fPerc(vdev_cache_delegations, vdev_cache_total), 'num': fHits(vdev_cache_delegations), } return output def _vdev_summary(Kstat): arc = get_vdev_summary(Kstat) if arc['vdev_cache_total'] > 0: sys.stdout.write("VDEV Cache Summary:\t\t\t\t%s\n" % arc['summary']) sys.stdout.write("\tHit Ratio:\t\t\t%s\t%s\n" % ( arc['hit_ratio']['per'], arc['hit_ratio']['num'], )) sys.stdout.write("\tMiss Ratio:\t\t\t%s\t%s\n" % ( arc['miss_ratio']['per'], arc['miss_ratio']['num'], )) sys.stdout.write("\tDelegations:\t\t\t%s\t%s\n" % ( arc['delegations']['per'], arc['delegations']['num'], )) def _tunable_summary(Kstat): global show_tunable_descriptions global alternate_tunable_layout names = listdir("/sys/module/zfs/parameters/") values = {} for name in names: with open("/sys/module/zfs/parameters/" + name) as f: value = f.read() values[name] = value.strip() descriptions = {} if show_tunable_descriptions: try: command = ["/sbin/modinfo", "zfs", "-0"] p = Popen(command, stdin=PIPE, stdout=PIPE, stderr=PIPE, shell=False, close_fds=True) p.wait() description_list = p.communicate()[0].strip().split('\0') if p.returncode == 0: for tunable in description_list: if tunable[0:5] == 'parm:': tunable = tunable[5:].strip() name, description = tunable.split(':', 1) if not description: description = "Description unavailable" descriptions[name] = description else: sys.stderr.write("%s: '%s' exited with code %i\n" % (sys.argv[0], command[0], p.returncode)) sys.stderr.write("Tunable descriptions will be disabled.\n") except OSError as e: sys.stderr.write("%s: Cannot run '%s': %s\n" % (sys.argv[0], command[0], e.strerror)) sys.stderr.write("Tunable descriptions will be disabled.\n") sys.stdout.write("ZFS Tunable:\n") for name in names: if not name: continue format = "\t%-50s%s\n" if alternate_tunable_layout: format = "\t%s=%s\n" if show_tunable_descriptions and name in descriptions: sys.stdout.write("\t# %s\n" % descriptions[name]) sys.stdout.write(format % (name, values[name])) unSub = [ _arc_summary, _arc_efficiency, _l2arc_summary, _dmu_summary, _vdev_summary, _tunable_summary ] def zfs_header(): daydate = time.strftime("%a %b %d %H:%M:%S %Y") div1() sys.stdout.write("ZFS Subsystem Report\t\t\t\t%s" % daydate) div2() def usage(): sys.stdout.write("Usage: arc_summary.py [-h] [-a] [-d] [-p PAGE]\n\n") sys.stdout.write("\t -h, --help : " "Print this help message and exit\n") sys.stdout.write("\t -a, --alternate : " "Show an alternate sysctl layout\n") sys.stdout.write("\t -d, --description : " "Show the sysctl descriptions\n") sys.stdout.write("\t -p PAGE, --page=PAGE : " "Select a single output page to display,\n") sys.stdout.write("\t " "should be an integer between 1 and " + str(len(unSub)) + "\n\n") sys.stdout.write("Examples:\n") sys.stdout.write("\tarc_summary.py -a\n") sys.stdout.write("\tarc_summary.py -p 4\n") sys.stdout.write("\tarc_summary.py -ad\n") sys.stdout.write("\tarc_summary.py --page=2\n") def main(): global show_tunable_descriptions global alternate_tunable_layout opts, args = getopt.getopt( sys.argv[1:], "adp:h", ["alternate", "description", "page=", "help"] ) args = {} for opt, arg in opts: if opt in ('-a', '--alternate'): args['a'] = True if opt in ('-d', '--description'): args['d'] = True if opt in ('-p', '--page'): args['p'] = arg if opt in ('-h', '--help'): usage() sys.exit() Kstat = get_Kstat() alternate_tunable_layout = 'a' in args show_tunable_descriptions = 'd' in args pages = [] if 'p' in args: try: pages.append(unSub[int(args['p']) - 1]) except IndexError: sys.stderr.write('the argument to -p must be between 1 and ' + str(len(unSub)) + '\n') sys.exit() else: pages = unSub zfs_header() for page in pages: page(Kstat) div2() if __name__ == '__main__': main()