zfs/cmd/arc_summary/arc_summary.py

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#!/usr/bin/python
#
# $Id: arc_summary.pl,v 388:e27800740aa2 2011-07-08 02:53:29Z jhell $
#
# Copyright (c) 2008 Ben Rockwood <benr@cuddletech.com>,
# Copyright (c) 2010 Martin Matuska <mm@FreeBSD.org>,
# Copyright (c) 2010-2011 Jason J. Hellenthal <jhell@DataIX.net>,
# 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.
"""Print statistics on the ZFS Adjustable Replacement Cache (ARC)
Provides basic information on the ARC, its efficiency, the L2ARC (if present),
the Data Management Unit (DMU), Virtual Devices (VDEVs), and tunables. See the
in-source documentation and code at
https://github.com/zfsonlinux/zfs/blob/master/module/zfs/arc.c for details.
"""
import sys
import time
import getopt
import re
from os import listdir
from subprocess import Popen, PIPE
from decimal import Decimal as D
show_tunable_descriptions = False
alternate_tunable_layout = False
kstat_pobj = re.compile("^([^:]+):\s+(.+)\s*$", flags=re.M)
def get_Kstat():
"""Collect information on the ZFS subsystem from the /proc virtual
file system. The name "kstat" is a holdover from the Solaris utility
of the same name.
"""
def load_proc_kstats(fn, namespace):
"""Collect information on a specific subsystem of the ARC"""
kstats = [line.strip() for line in open(fn)]
del kstats[0:2]
for kstat in kstats:
kstat = kstat.strip()
name, _, 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 fBytes(b=0):
"""Return human-readable representation of a byte value in
powers of 2 (eg "KiB" for "kibibytes", etc) to two decimal
points. Values smaller than one KiB are returned without
decimal points.
"""
prefixes = [
[2**80, "YiB"], # yobibytes (yotta)
[2**70, "ZiB"], # zebibytes (zetta)
[2**60, "EiB"], # exbibytes (exa)
[2**50, "PiB"], # pebibytes (peta)
[2**40, "TiB"], # tebibytes (tera)
[2**30, "GiB"], # gibibytes (giga)
[2**20, "MiB"], # mebibytes (mega)
[2**10, "KiB"]] # kibibytes (kilo)
if b >= 2**10:
for limit, unit in prefixes:
if b >= limit:
value = b / limit
break
result = "%0.2f\t%s" % (value, unit)
else:
result = "%d\tBytes" % b
return result
def fHits(hits=0):
"""Create a human-readable representation of the number of hits.
The single-letter symbols used are SI to avoid the confusion caused
by the different "short scale" and "long scale" representations in
English, which use the same words for different values. See
https://en.wikipedia.org/wiki/Names_of_large_numbers and
https://physics.nist.gov/cuu/Units/prefixes.html
"""
numbers = [
[10**24, 'Y'], # yotta (septillion)
[10**21, 'Z'], # zetta (sextillion)
[10**18, 'E'], # exa (quintrillion)
[10**15, 'P'], # peta (quadrillion)
[10**12, 'T'], # tera (trillion)
[10**9, 'G'], # giga (billion)
[10**6, 'M'], # mega (million)
[10**3, 'k']] # kilo (thousand)
if hits >= 1000:
for limit, symbol in numbers:
if hits >= limit:
value = hits/limit
break
result = "%0.2f%s" % (value, symbol)
else:
result = "%d" % hits
return result
def fPerc(lVal=0, rVal=0, Decimal=2):
"""Calculate percentage value and return in human-readable format"""
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):
"""Collect general data on the ARC"""
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.mru_size"]
mfu_size = Kstat["kstat.zfs.misc.arcstats.mfu_size"]
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'] = {}
output['arc_size_break']['recently_used_cache_size'] = {
'per': fPerc(mru_size, mru_size + mfu_size),
'num': fBytes(mru_size),
}
output['arc_size_break']['frequently_used_cache_size'] = {
'per': fPerc(mfu_size, mru_size + mfu_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):
"""Print information on the ARC"""
# 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):
"""Collect information on the efficiency of the ARC"""
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):
"""Print information on the efficiency of the ARC"""
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):
"""Collection information on the L2ARC"""
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):
"""Print information on the L2ARC"""
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'] != '0' or \
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):
"""Collect information on the DMU"""
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):
"""Print information on the DMU"""
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):
"""Collect information on the VDEVs"""
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):
"""Print information on the VDEVs"""
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):
"""Print information on tunables"""
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():
"""Print title string with date"""
daydate = time.strftime('%a %b %d %H:%M:%S %Y')
sys.stdout.write('\n'+'-'*72+'\n')
sys.stdout.write('ZFS Subsystem Report\t\t\t\t%s' % daydate)
sys.stdout.write('\n')
def usage():
"""Print usage information"""
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():
"""Main function"""
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()
Refactor arc_summary to simplify -p processing The -p option is used to specify a specific page of output to be displayed. If omitted, all output pages would be displayed. arc_summary, as it stood, had really kludgy processing code for processing the -p option. It relied on a try-except block which was treated as an if statement and in normal operation would fail any time a user didn't specify the -p option on the command line. When the exception was thrown, the script would then display all output pages. This happened whether the -p option was omitted or malformed. Thus, in the principle use case, an exception would be raised in order to run the script as desired. The same except code would be called regardless of the exception, however, and malformed -p arguments would also cause the script to execute. Additionally, this required the function which handles the case where all output pages were to be displayed, _call_all, to be potentially called from several locations within main. This commit refactors the option processing code to simplify it and make it easier to catch runtime errors in the script. This is done by specializing the try-except block to only have an exception when the -p argument is malformed. When the -p option is correctly selected by the user, it calls a function in the unSub array directly, which will only display one page of output. Finally in the context of this refactoring the page breaks have been removed. Pages seem to have been added into the output in the FreeNAS version of the script. This patch removes pages from the output to more closely resemble the freebsd version of the script. Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov> Signed-off-by: Kyle Blatter <kyleblatter@llnl.gov> Signed-off-by: Ned Bass <bass6@llnl.gov>
2014-11-05 18:08:45 +00:00
Kstat = get_Kstat()
alternate_tunable_layout = 'a' in args
show_tunable_descriptions = 'd' in args
Refactor arc_summary to simplify -p processing The -p option is used to specify a specific page of output to be displayed. If omitted, all output pages would be displayed. arc_summary, as it stood, had really kludgy processing code for processing the -p option. It relied on a try-except block which was treated as an if statement and in normal operation would fail any time a user didn't specify the -p option on the command line. When the exception was thrown, the script would then display all output pages. This happened whether the -p option was omitted or malformed. Thus, in the principle use case, an exception would be raised in order to run the script as desired. The same except code would be called regardless of the exception, however, and malformed -p arguments would also cause the script to execute. Additionally, this required the function which handles the case where all output pages were to be displayed, _call_all, to be potentially called from several locations within main. This commit refactors the option processing code to simplify it and make it easier to catch runtime errors in the script. This is done by specializing the try-except block to only have an exception when the -p argument is malformed. When the -p option is correctly selected by the user, it calls a function in the unSub array directly, which will only display one page of output. Finally in the context of this refactoring the page breaks have been removed. Pages seem to have been added into the output in the FreeNAS version of the script. This patch removes pages from the output to more closely resemble the freebsd version of the script. Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov> Signed-off-by: Kyle Blatter <kyleblatter@llnl.gov> Signed-off-by: Ned Bass <bass6@llnl.gov>
2014-11-05 18:08:45 +00:00
pages = []
if 'p' in args:
try:
pages.append(unSub[int(args['p']) - 1])
except IndexError:
Refactor arc_summary to simplify -p processing The -p option is used to specify a specific page of output to be displayed. If omitted, all output pages would be displayed. arc_summary, as it stood, had really kludgy processing code for processing the -p option. It relied on a try-except block which was treated as an if statement and in normal operation would fail any time a user didn't specify the -p option on the command line. When the exception was thrown, the script would then display all output pages. This happened whether the -p option was omitted or malformed. Thus, in the principle use case, an exception would be raised in order to run the script as desired. The same except code would be called regardless of the exception, however, and malformed -p arguments would also cause the script to execute. Additionally, this required the function which handles the case where all output pages were to be displayed, _call_all, to be potentially called from several locations within main. This commit refactors the option processing code to simplify it and make it easier to catch runtime errors in the script. This is done by specializing the try-except block to only have an exception when the -p argument is malformed. When the -p option is correctly selected by the user, it calls a function in the unSub array directly, which will only display one page of output. Finally in the context of this refactoring the page breaks have been removed. Pages seem to have been added into the output in the FreeNAS version of the script. This patch removes pages from the output to more closely resemble the freebsd version of the script. Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov> Signed-off-by: Kyle Blatter <kyleblatter@llnl.gov> Signed-off-by: Ned Bass <bass6@llnl.gov>
2014-11-05 18:08:45 +00:00
sys.stderr.write('the argument to -p must be between 1 and ' +
str(len(unSub)) + '\n')
Refactor arc_summary to simplify -p processing The -p option is used to specify a specific page of output to be displayed. If omitted, all output pages would be displayed. arc_summary, as it stood, had really kludgy processing code for processing the -p option. It relied on a try-except block which was treated as an if statement and in normal operation would fail any time a user didn't specify the -p option on the command line. When the exception was thrown, the script would then display all output pages. This happened whether the -p option was omitted or malformed. Thus, in the principle use case, an exception would be raised in order to run the script as desired. The same except code would be called regardless of the exception, however, and malformed -p arguments would also cause the script to execute. Additionally, this required the function which handles the case where all output pages were to be displayed, _call_all, to be potentially called from several locations within main. This commit refactors the option processing code to simplify it and make it easier to catch runtime errors in the script. This is done by specializing the try-except block to only have an exception when the -p argument is malformed. When the -p option is correctly selected by the user, it calls a function in the unSub array directly, which will only display one page of output. Finally in the context of this refactoring the page breaks have been removed. Pages seem to have been added into the output in the FreeNAS version of the script. This patch removes pages from the output to more closely resemble the freebsd version of the script. Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov> Signed-off-by: Kyle Blatter <kyleblatter@llnl.gov> Signed-off-by: Ned Bass <bass6@llnl.gov>
2014-11-05 18:08:45 +00:00
sys.exit()
else:
Refactor arc_summary to simplify -p processing The -p option is used to specify a specific page of output to be displayed. If omitted, all output pages would be displayed. arc_summary, as it stood, had really kludgy processing code for processing the -p option. It relied on a try-except block which was treated as an if statement and in normal operation would fail any time a user didn't specify the -p option on the command line. When the exception was thrown, the script would then display all output pages. This happened whether the -p option was omitted or malformed. Thus, in the principle use case, an exception would be raised in order to run the script as desired. The same except code would be called regardless of the exception, however, and malformed -p arguments would also cause the script to execute. Additionally, this required the function which handles the case where all output pages were to be displayed, _call_all, to be potentially called from several locations within main. This commit refactors the option processing code to simplify it and make it easier to catch runtime errors in the script. This is done by specializing the try-except block to only have an exception when the -p argument is malformed. When the -p option is correctly selected by the user, it calls a function in the unSub array directly, which will only display one page of output. Finally in the context of this refactoring the page breaks have been removed. Pages seem to have been added into the output in the FreeNAS version of the script. This patch removes pages from the output to more closely resemble the freebsd version of the script. Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov> Signed-off-by: Kyle Blatter <kyleblatter@llnl.gov> Signed-off-by: Ned Bass <bass6@llnl.gov>
2014-11-05 18:08:45 +00:00
pages = unSub
Refactor arc_summary to simplify -p processing The -p option is used to specify a specific page of output to be displayed. If omitted, all output pages would be displayed. arc_summary, as it stood, had really kludgy processing code for processing the -p option. It relied on a try-except block which was treated as an if statement and in normal operation would fail any time a user didn't specify the -p option on the command line. When the exception was thrown, the script would then display all output pages. This happened whether the -p option was omitted or malformed. Thus, in the principle use case, an exception would be raised in order to run the script as desired. The same except code would be called regardless of the exception, however, and malformed -p arguments would also cause the script to execute. Additionally, this required the function which handles the case where all output pages were to be displayed, _call_all, to be potentially called from several locations within main. This commit refactors the option processing code to simplify it and make it easier to catch runtime errors in the script. This is done by specializing the try-except block to only have an exception when the -p argument is malformed. When the -p option is correctly selected by the user, it calls a function in the unSub array directly, which will only display one page of output. Finally in the context of this refactoring the page breaks have been removed. Pages seem to have been added into the output in the FreeNAS version of the script. This patch removes pages from the output to more closely resemble the freebsd version of the script. Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov> Signed-off-by: Kyle Blatter <kyleblatter@llnl.gov> Signed-off-by: Ned Bass <bass6@llnl.gov>
2014-11-05 18:08:45 +00:00
zfs_header()
for page in pages:
page(Kstat)
sys.stdout.write("\n")
if __name__ == '__main__':
main()