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authorcburroughs <[email protected]>2014-02-11 09:15:50 -0500
committerBrian Behlendorf <[email protected]>2015-01-28 09:33:00 -0800
commitedd5b80d07544961f8bd184b2d5cc726ea71f5d0 (patch)
treeb08d8feabe6bf4ea59451666c4eaa8e9c244b856
parentb0cf0676c0beb5dcb149774a3264580a18304ac1 (diff)
Add arc_summary.py from FreeNAS
The arc_summary script is a useful utility for administrators on other ZFS platforms. It provides a quick and easy way to get a high level view of the current ARC state. Historically this was a perl script but it was rewritten in python for FreeNAS. We've decided to adopt the python version instead of the perl version for a few reasons. 1) ZoL has no existing perl dependencies, but it does have a python dependency for scripts such as arcstat.py and dbufstat.py. Using python for arc_summary.py helps us minimize dependencies. 2) Most major Linux distributions already depend heavily on python for their core infrastructure. This means it's very likely to be available even very early in the boot process. Original source: https://github.com/freenas/freenas/blob/master/gui/tools/arc_summary.py Signed-off-by: Brian Behlendorf <[email protected]> Signed-off-by: cburroughs <[email protected]> Signed-off-by: Kyle Blatter <[email protected]> Signed-off-by: Ned Bass <[email protected]>
-rw-r--r--cmd/arc_summary/Makefile.am2
-rwxr-xr-xcmd/arc_summary/arc_summary.py1376
2 files changed, 1378 insertions, 0 deletions
diff --git a/cmd/arc_summary/Makefile.am b/cmd/arc_summary/Makefile.am
new file mode 100644
index 000000000..339b71ff3
--- /dev/null
+++ b/cmd/arc_summary/Makefile.am
@@ -0,0 +1,2 @@
+bin_SCRIPTS = arc_summary.py
+EXTRA_DIST = $(bin_SCRIPTS)
diff --git a/cmd/arc_summary/arc_summary.py b/cmd/arc_summary/arc_summary.py
new file mode 100755
index 000000000..a81811a51
--- /dev/null
+++ b/cmd/arc_summary/arc_summary.py
@@ -0,0 +1,1376 @@
+#!/usr/local/bin/python
+#
+# $Id: arc_summary.pl,v 388:e27800740aa2 2011-07-08 02:53:29Z jhell $
+#
+# Copyright (c) 2008 Ben Rockwood <[email protected]>,
+# Copyright (c) 2010 Martin Matuska <[email protected]>,
+# Copyright (c) 2010-2011 Jason J. Hellenthal <[email protected]>,
+# 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 subprocess import Popen, PIPE
+from decimal import Decimal as D
+
+
+usetunable = True
+show_sysctl_descriptions = False
+alternate_sysctl_layout = False
+kstat_pobj = re.compile("^([^:]+):\s+(.+)\s*$", flags=re.M)
+
+
+def get_Kstat():
+ Kstats = [
+ "hw.pagesize",
+ "hw.physmem",
+ "kern.maxusers",
+ "vm.kmem_map_free",
+ "vm.kmem_map_size",
+ "vm.kmem_size",
+ "vm.kmem_size_max",
+ "vm.kmem_size_min",
+ "vm.kmem_size_scale",
+ "vm.stats",
+ "vm.swap_total",
+ "vm.swap_reserved",
+ "kstat.zfs",
+ "vfs.zfs"
+ ]
+
+ sysctls = " ".join(str(x) for x in Kstats)
+ p = Popen("/sbin/sysctl -q %s" % sysctls, stdin=PIPE,
+ stdout=PIPE, stderr=PIPE, shell=True, close_fds=True)
+ p.wait()
+
+ kstat_pull = p.communicate()[0].split('\n')
+ if p.returncode != 0:
+ sys.exit(1)
+
+ Kstat = {}
+ for kstat in kstat_pull:
+ kstat = kstat.strip()
+ mobj = kstat_pobj.match(kstat)
+ if mobj:
+ key = mobj.group(1).strip()
+ val = mobj.group(2).strip()
+ Kstat[key] = D(val)
+
+ return Kstat
+
+
+def div1():
+ sys.stdout.write("\n")
+ for i in xrange(18):
+ sys.stdout.write("%s" % "----")
+ sys.stdout.write("\n")
+
+
+def div2():
+ div1()
+ 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_system_memory(Kstat):
+ def mem_rounded(mem_size):
+ chip_size = 1
+ chip_guess = (int(mem_size) / 8) - 1
+ while chip_guess != 0:
+ chip_guess >>= 1
+ chip_size <<= 1
+
+ mem_round = (int(mem_size / chip_size) + 1) * chip_size
+ return mem_round
+
+ output = {}
+
+ pagesize = Kstat["hw.pagesize"]
+ mem_hw = mem_rounded(Kstat["hw.physmem"])
+ mem_phys = Kstat["hw.physmem"]
+ mem_all = Kstat["vm.stats.vm.v_page_count"] * pagesize
+ mem_wire = Kstat["vm.stats.vm.v_wire_count"] * pagesize
+ mem_active = Kstat["vm.stats.vm.v_active_count"] * pagesize
+ mem_inactive = Kstat["vm.stats.vm.v_inactive_count"] * pagesize
+ mem_cache = Kstat["vm.stats.vm.v_cache_count"] * pagesize
+ mem_free = Kstat["vm.stats.vm.v_free_count"] * pagesize
+
+ mem_gap_vm = mem_all - (
+ mem_wire + mem_active + mem_inactive + mem_cache + mem_free
+ )
+
+ mem_total = mem_hw
+ mem_avail = mem_inactive + mem_cache + mem_free
+ mem_used = mem_total - mem_avail
+ output["active"] = {
+ 'per': fPerc(mem_active, mem_all),
+ 'num': fBytes(mem_active),
+ }
+ output["inact"] = {
+ 'per': fPerc(mem_inactive, mem_all),
+ 'num': fBytes(mem_inactive),
+ }
+ output["wired"] = {
+ 'per': fPerc(mem_wire, mem_all),
+ 'num': fBytes(mem_wire),
+ }
+ output["cache"] = {
+ 'per': fPerc(mem_cache, mem_all),
+ 'num': fBytes(mem_cache),
+ }
+ output["free"] = {
+ 'per': fPerc(mem_free, mem_all),
+ 'num': fBytes(mem_free),
+ }
+ output["gap"] = {
+ 'per': fPerc(mem_gap_vm, mem_all),
+ 'num': fBytes(mem_gap_vm),
+ }
+ output["real_installed"] = fBytes(mem_hw)
+ output["real_available"] = {
+ 'per': fPerc(mem_phys, mem_hw),
+ 'num': fBytes(mem_phys),
+ }
+ output["real_managed"] = {
+ 'per': fPerc(mem_all, mem_phys),
+ 'num': fBytes(mem_all),
+ }
+ output["logical_total"] = fBytes(mem_total)
+ output["logical_used"] = {
+ 'per': fPerc(mem_used, mem_total),
+ 'num': fBytes(mem_used),
+ }
+ output["logical_free"] = {
+ 'per': fPerc(mem_avail, mem_total),
+ 'num': fBytes(mem_avail),
+ }
+
+ swap_total = Kstat["vm.swap_total"]
+ output["swap_total"] = fBytes(swap_total)
+ output["swap_reserved"] = fBytes(Kstat["vm.swap_reserved"])
+
+ if int(swap_total) > 0:
+ proc = Popen(
+ "/usr/sbin/swapinfo -k|tail -1|awk '{print $3}'",
+ shell=True,
+ stdout=PIPE,
+ stderr=PIPE,
+ )
+ try:
+ swap_used = int(proc.communicate()[0])
+ except:
+ swap_used = 0
+ output['swap_used'] = fBytes(swap_used * 1024)
+ else:
+ output['swap_used'] = fBytes(0)
+
+ output['kmem_map_size'] = Kstat["vm.kmem_map_size"]
+ output['kmem_map_free'] = Kstat["vm.kmem_map_free"]
+
+ return output
+
+
+def _system_memory(Kstat):
+
+ arc = get_system_memory(Kstat)
+
+ sys.stdout.write("System Memory:\n")
+ sys.stdout.write("\n")
+ sys.stdout.write("\t%s\t%s Active,\t" % (
+ arc['active']['per'],
+ arc['active']['num'],
+ )
+ )
+
+ sys.stdout.write("%s\t%s Inact\n" % (
+ arc['inact']['per'],
+ arc['inact']['num'],
+ )
+ )
+ sys.stdout.write("\t%s\t%s Wired,\t" % (
+ arc['wired']['per'],
+ arc['wired']['num'],
+ )
+ )
+ sys.stdout.write("%s\t%s Cache\n" % (
+ arc['cache']['per'],
+ arc['cache']['num'],
+ )
+ )
+ sys.stdout.write("\t%s\t%s Free,\t" % (
+ arc['free']['per'],
+ arc['free']['num'],
+ )
+ )
+ sys.stdout.write("%s\t%s Gap\n" % (
+ arc['gap']['per'],
+ arc['gap']['num'],
+ )
+ )
+ sys.stdout.write("\n")
+ sys.stdout.write("\tReal Installed:\t\t\t\t%s\n" % arc['real_installed'])
+ sys.stdout.write("\tReal Available:\t\t\t%s\t%s\n" % (
+ arc['real_available']['per'],
+ arc['real_available']['num'],
+ )
+ )
+ sys.stdout.write("\tReal Managed:\t\t\t%s\t%s\n" % (
+ arc['real_managed']['per'],
+ arc['real_managed']['num'],
+ )
+ )
+
+ sys.stdout.write("\n")
+ sys.stdout.write("\tLogical Total:\t\t\t\t%s\n" % arc['logical_total'])
+ sys.stdout.write("\tLogical Used:\t\t\t%s\t%s\n" % (
+ arc['logical_used']['per'],
+ arc['logical_used']['num'],
+ )
+ )
+ sys.stdout.write("\tLogical Free:\t\t\t%s\t%s\n" % (
+ arc['logical_free']['per'],
+ arc['logical_free']['num'],
+ )
+ )
+ sys.stdout.write("\n")
+
+ cmd1 = """
+ /sbin/kldstat | \
+ /usr/bin/awk '
+ BEGIN {
+ print "16i 0";
+ }
+ NR > 1 {
+ print toupper($4) "+";
+ }
+ END {
+ print "p";
+ }
+ ' | /usr/bin/dc
+ """
+
+ cmd2 = """
+ /usr/bin/vmstat -m | \
+ /usr/bin/sed -Ee '1s/.*/0/;s/.* ([0-9]+)K.*/\\1+/;$s/$/1024*p/' | \
+ /usr/bin/dc
+ """
+
+ p1 = Popen(cmd1, stdin=PIPE, stdout=PIPE, stderr=PIPE, shell=True, close_fds=True)
+ p2 = Popen(cmd2, stdin=PIPE, stdout=PIPE, stderr=PIPE, shell=True, close_fds=True)
+
+ ktext = D(p1.communicate()[0].strip())
+ kdata = D(p2.communicate()[0].strip())
+
+ if p1.returncode != 0 or p2.returncode != 0:
+ sys.exit(1)
+
+ kmem = ktext + kdata
+ kmem_map_size = arc['kmem_map_size']
+ kmem_map_free = arc['kmem_map_free']
+ kmem_map_total = kmem_map_size + kmem_map_free
+
+ sys.stdout.write("Kernel Memory:\t\t\t\t\t%s\n" % fBytes(kmem))
+ sys.stdout.write("\tData:\t\t\t\t%s\t%s\n" % (fPerc(kdata, kmem), fBytes(kdata)))
+ sys.stdout.write("\tText:\t\t\t\t%s\t%s\n\n" % (fPerc(ktext, kmem), fBytes(ktext)))
+
+ sys.stdout.write("Kernel Memory Map:\t\t\t\t%s\n" % fBytes(kmem_map_total))
+ sys.stdout.write("\tSize:\t\t\t\t%s\t%s\n" % (fPerc(kmem_map_size, kmem_map_total), fBytes(kmem_map_size)))
+ sys.stdout.write("\tFree:\t\t\t\t%s\t%s\n" % (fPerc(kmem_map_free, kmem_map_total), fBytes(kmem_map_free)))
+
+
+def get_arc_summary(Kstat):
+
+ output = {}
+ if "vfs.zfs.version.spa" not in Kstat:
+ return {}
+
+ spa = Kstat["vfs.zfs.version.spa"]
+ zpl = Kstat["vfs.zfs.version.zpl"]
+ memory_throttle_count = Kstat[
+ "kstat.zfs.misc.arcstats.memory_throttle_count"
+ ]
+
+ if memory_throttle_count > 0:
+ output['health'] = 'THROTTLED'
+ else:
+ output['health'] = 'HEALTHY'
+
+ output['storage_pool_ver'] = spa
+ output['filesystem_ver'] = zpl
+ output['memory_throttle_count'] = fHits(memory_throttle_count)
+
+ ### ARC Misc. ###
+ deleted = Kstat["kstat.zfs.misc.arcstats.deleted"]
+ #evict_skip = Kstat["kstat.zfs.misc.arcstats.evict_skip"]
+ mutex_miss = Kstat["kstat.zfs.misc.arcstats.mutex_miss"]
+ recycle_miss = Kstat["kstat.zfs.misc.arcstats.recycle_miss"]
+
+ ### ARC Misc. ###
+ output["arc_misc"] = {}
+ output["arc_misc"]["deleted"] = fHits(deleted)
+ output["arc_misc"]['recycle_miss'] = fHits(recycle_miss)
+ 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("\tStorage pool Version:\t\t\t%d\n" % arc['storage_pool_ver'])
+ sys.stdout.write("\tFilesystem Version:\t\t\t%d\n" % arc['filesystem_ver'])
+ 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("\tRecycle Misses:\t\t\t\t%s\n" % arc['arc_misc']['recycle_miss'])
+ 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 = {}
+
+ if "vfs.zfs.version.spa" not in Kstat:
+ return
+
+ 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 = {}
+
+ if "vfs.zfs.version.spa" not in Kstat:
+ return
+
+ 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_write_buffer_bytes_scanned = Kstat["kstat.zfs.misc.arcstats.l2_write_buffer_bytes_scanned"]
+ l2_write_buffer_iter = Kstat["kstat.zfs.misc.arcstats.l2_write_buffer_iter"]
+ l2_write_buffer_list_iter = Kstat["kstat.zfs.misc.arcstats.l2_write_buffer_list_iter"]
+ l2_write_buffer_list_null_iter = Kstat["kstat.zfs.misc.arcstats.l2_write_buffer_list_null_iter"]
+ #l2_write_bytes = Kstat["kstat.zfs.misc.arcstats.l2_write_bytes"]
+ l2_write_full = Kstat["kstat.zfs.misc.arcstats.l2_write_full"]
+ #l2_write_in_l2 = Kstat["kstat.zfs.misc.arcstats.l2_write_in_l2"]
+ l2_write_io_in_progress = Kstat["kstat.zfs.misc.arcstats.l2_write_io_in_progress"]
+ #l2_write_not_cacheable = Kstat["kstat.zfs.misc.arcstats.l2_write_not_cacheable"]
+ l2_write_passed_headroom = Kstat["kstat.zfs.misc.arcstats.l2_write_passed_headroom"]
+ #l2_write_pios = Kstat["kstat.zfs.misc.arcstats.l2_write_pios"]
+ l2_write_spa_mismatch = Kstat["kstat.zfs.misc.arcstats.l2_write_spa_mismatch"]
+ l2_write_trylock_fail = Kstat["kstat.zfs.misc.arcstats.l2_write_trylock_fail"]
+ l2_writes_done = Kstat["kstat.zfs.misc.arcstats.l2_writes_done"]
+ l2_writes_error = Kstat["kstat.zfs.misc.arcstats.l2_writes_error"]
+ #l2_writes_hdr_miss = Kstat["kstat.zfs.misc.arcstats.l2_writes_hdr_miss"]
+ 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
+
+ if l2_size > 0 and l2_access_total > 0:
+
+ if output['l2_health_count'] > 0:
+ output["health"] = "DEGRADED"
+ else:
+ output["health"] = "HEALTHY"
+
+ output["passed_headroom"] = fHits(l2_write_passed_headroom)
+ output["tried_lock_failure"] = fHits(l2_write_trylock_fail)
+ output["io_in_progress"] = fHits(l2_write_io_in_progress)
+ output["low_memory_aborts"] = fHits(l2_abort_lowmem)
+ output["free_on_write"] = fHits(l2_free_on_write)
+ output["writes_while_full"] = fHits(l2_write_full)
+ output["rw_clashes"] = fHits(l2_rw_clash)
+ output["bad_checksums"] = fHits(l2_cksum_bad)
+ output["io_errors"] = fHits(l2_io_error)
+ output["spa_mismatch"] = fHits(l2_write_spa_mismatch)
+
+ output["l2_arc_size"] = {}
+ output["l2_arc_size"]["adative"] = fBytes(l2_size)
+ 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_buffer']['bytes_scanned'] = fBytes(l2_write_buffer_bytes_scanned)
+ output['l2_arc_buffer']['buffer_iterations'] = fHits(l2_write_buffer_iter)
+ output['l2_arc_buffer']['list_iterations'] = fHits(l2_write_buffer_list_iter)
+ output['l2_arc_buffer']['null_list_iterations'] = fHits(l2_write_buffer_list_null_iter)
+
+ 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):
+
+ if not Kstat["vfs.zfs.version.spa"]:
+ return
+
+ 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("\tPassed Headroom:\t\t\t%s\n" % arc['passed_headroom'])
+ sys.stdout.write("\tTried Lock Failures:\t\t\t%s\n" % arc['tried_lock_failure'])
+ sys.stdout.write("\tIO In Progress:\t\t\t\t%s\n" % arc['io_in_progress'])
+ 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("\tWrites While Full:\t\t\t%s\n" % arc['writes_while_full'])
+ 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("\tSPA Mismatch:\t\t\t\t%s\n" % arc['spa_mismatch'])
+ 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("\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 Buffer:\n")
+ sys.stdout.write("\tBytes Scanned:\t\t\t\t%s\n" % arc['l2_arc_buffer']['bytes_scanned'])
+ sys.stdout.write("\tBuffer Iterations:\t\t\t%s\n" % arc['l2_arc_buffer']['buffer_iterations'])
+ sys.stdout.write("\tList Iterations:\t\t\t%s\n" % arc['l2_arc_buffer']['list_iterations'])
+ sys.stdout.write("\tNULL List Iterations:\t\t\t%s\n" % arc['l2_arc_buffer']['null_list_iterations'])
+ 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 = {}
+
+ if "vfs.zfs.version.spa" not in Kstat:
+ return output
+
+ zfetch_bogus_streams = Kstat["kstat.zfs.misc.zfetchstats.bogus_streams"]
+ zfetch_colinear_hits = Kstat["kstat.zfs.misc.zfetchstats.colinear_hits"]
+ zfetch_colinear_misses = Kstat["kstat.zfs.misc.zfetchstats.colinear_misses"]
+ zfetch_hits = Kstat["kstat.zfs.misc.zfetchstats.hits"]
+ zfetch_misses = Kstat["kstat.zfs.misc.zfetchstats.misses"]
+ zfetch_reclaim_failures = Kstat["kstat.zfs.misc.zfetchstats.reclaim_failures"]
+ zfetch_reclaim_successes = Kstat["kstat.zfs.misc.zfetchstats.reclaim_successes"]
+ zfetch_streams_noresets = Kstat["kstat.zfs.misc.zfetchstats.streams_noresets"]
+ zfetch_streams_resets = Kstat["kstat.zfs.misc.zfetchstats.streams_resets"]
+ zfetch_stride_hits = Kstat["kstat.zfs.misc.zfetchstats.stride_hits"]
+ zfetch_stride_misses = Kstat["kstat.zfs.misc.zfetchstats.stride_misses"]
+
+ zfetch_access_total = (zfetch_hits + zfetch_misses)
+ zfetch_colinear_total = (zfetch_colinear_hits + zfetch_colinear_misses)
+ zfetch_health_count = (zfetch_bogus_streams)
+ zfetch_reclaim_total = (zfetch_reclaim_successes + zfetch_reclaim_failures)
+ zfetch_streams_total = (zfetch_streams_resets + zfetch_streams_noresets + zfetch_bogus_streams)
+ zfetch_stride_total = (zfetch_stride_hits + zfetch_stride_misses)
+ output['zfetch_access_total'] = zfetch_access_total
+
+ if zfetch_access_total > 0:
+
+ output['file_level_prefetch'] = {}
+ if zfetch_health_count > 0:
+ output['file_level_prefetch']['health'] = 'DEGRADED'
+ else:
+ output['file_level_prefetch']['health'] = 'HEALTHY'
+
+ 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),
+ }
+
+ output['dmu']['colinear'] = {}
+ output['dmu']['colinear']['value'] = fHits(zfetch_colinear_total)
+ output['dmu']['colinear']['hit_ratio'] = {
+ 'per': fPerc(zfetch_colinear_hits, zfetch_colinear_total),
+ 'num': fHits(zfetch_colinear_hits),
+ }
+ output['dmu']['colinear']['miss_ratio'] = {
+ 'per': fPerc(zfetch_colinear_misses, zfetch_colinear_total),
+ 'num': fHits(zfetch_colinear_misses),
+ }
+
+ output['dmu']['stride'] = {}
+ output['dmu']['stride']['value'] = fHits(zfetch_stride_total)
+ output['dmu']['stride']['hit_ratio'] = {
+ 'per': fPerc(zfetch_stride_hits, zfetch_stride_total),
+ 'num': fHits(zfetch_stride_hits),
+ }
+ output['dmu']['stride']['miss_ratio'] = {
+ 'per': fPerc(zfetch_stride_misses, zfetch_stride_total),
+ 'num': fHits(zfetch_stride_misses),
+ }
+
+ output['dmu_misc'] = {}
+ if zfetch_health_count > 0:
+ output['dmu_misc']['status'] = "FAULTED"
+ else:
+ output['dmu_misc']['status'] = ""
+
+ output['dmu_misc']['reclaim'] = {}
+ output['dmu_misc']['reclaim']['value'] = fHits(zfetch_reclaim_total)
+ output['dmu_misc']['reclaim']['successes'] = {
+ 'per': fPerc(zfetch_reclaim_successes, zfetch_reclaim_total),
+ 'num': fHits(zfetch_reclaim_successes),
+ }
+ output['dmu_misc']['reclaim']['failure'] = {
+ 'per': fPerc(zfetch_reclaim_failures, zfetch_reclaim_total),
+ 'num': fHits(zfetch_reclaim_failures),
+ }
+
+ output['dmu_misc']['streams'] = {}
+ output['dmu_misc']['streams']['value'] = fHits(zfetch_streams_total)
+ output['dmu_misc']['streams']['plus_resets'] = {
+ 'per': fPerc(zfetch_streams_resets, zfetch_streams_total),
+ 'num': fHits(zfetch_streams_resets),
+ }
+ output['dmu_misc']['streams']['neg_resets'] = {
+ 'per': fPerc(zfetch_streams_noresets, zfetch_streams_total),
+ 'num': fHits(zfetch_streams_noresets),
+ }
+ output['dmu_misc']['streams']['bogus'] = fHits(zfetch_bogus_streams)
+
+ return output
+
+
+def _dmu_summary(Kstat):
+
+ arc = get_dmu_summary(Kstat)
+
+ if arc['zfetch_access_total'] > 0:
+ sys.stdout.write("File-Level Prefetch: (%s)" % arc['file_level_prefetch']['health'])
+
+ sys.stdout.write("DMU 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")
+
+ sys.stdout.write("\tColinear:\t\t\t\t%s\n" % arc['dmu']['colinear']['value'])
+ sys.stdout.write("\t Hit Ratio:\t\t\t%s\t%s\n" % (
+ arc['dmu']['colinear']['hit_ratio']['per'],
+ arc['dmu']['colinear']['hit_ratio']['num'],
+ )
+ )
+
+ sys.stdout.write("\t Miss Ratio:\t\t\t%s\t%s\n" % (
+ arc['dmu']['colinear']['miss_ratio']['per'],
+ arc['dmu']['colinear']['miss_ratio']['num'],
+ )
+ )
+
+ sys.stdout.write("\n")
+
+ sys.stdout.write("\tStride:\t\t\t\t\t%s\n" % arc['dmu']['stride']['value'])
+ sys.stdout.write("\t Hit Ratio:\t\t\t%s\t%s\n" % (
+ arc['dmu']['stride']['hit_ratio']['per'],
+ arc['dmu']['stride']['hit_ratio']['num'],
+ )
+ )
+
+ sys.stdout.write("\t Miss Ratio:\t\t\t%s\t%s\n" % (
+ arc['dmu']['stride']['miss_ratio']['per'],
+ arc['dmu']['stride']['miss_ratio']['num'],
+ )
+ )
+
+ sys.stdout.write("\n")
+ sys.stdout.write("DMU Misc: %s\n" % arc['dmu_misc']['status'])
+
+ sys.stdout.write("\tReclaim:\t\t\t\t%s\n" % arc['dmu_misc']['reclaim']['value'])
+ sys.stdout.write("\t Successes:\t\t\t%s\t%s\n" % (
+ arc['dmu_misc']['reclaim']['successes']['per'],
+ arc['dmu_misc']['reclaim']['successes']['num'],
+ )
+ )
+
+ sys.stdout.write("\t Failures:\t\t\t%s\t%s\n" % (
+ arc['dmu_misc']['reclaim']['failure']['per'],
+ arc['dmu_misc']['reclaim']['failure']['num'],
+ )
+ )
+
+ sys.stdout.write("\n\tStreams:\t\t\t\t%s\n" % arc['dmu_misc']['streams']['value'])
+ sys.stdout.write("\t +Resets:\t\t\t%s\t%s\n" % (
+ arc['dmu_misc']['streams']['plus_resets']['per'],
+ arc['dmu_misc']['streams']['plus_resets']['num'],
+ )
+ )
+
+ sys.stdout.write("\t -Resets:\t\t\t%s\t%s\n" % (
+ arc['dmu_misc']['streams']['neg_resets']['per'],
+ arc['dmu_misc']['streams']['neg_resets']['num'],
+ )
+ )
+
+ sys.stdout.write("\t Bogus:\t\t\t\t%s\n" % arc['dmu_misc']['streams']['bogus'])
+
+
+def get_vdev_summary(Kstat):
+ output = {}
+
+ if "vfs.zfs.version.spa" not in Kstat:
+ return
+
+ 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 get_systl_summary(Kstat):
+ output = {}
+ return output
+
+
+def _sysctl_summary(Kstat):
+ global show_sysctl_descriptions
+ global alternate_sysctl_layout
+
+ Tunable = [
+ "kern.maxusers",
+ "vm.kmem_size",
+ "vm.kmem_size_scale",
+ "vm.kmem_size_min",
+ "vm.kmem_size_max",
+ "vfs.zfs"
+ ]
+
+ if not usetunable:
+ return
+
+ sysctl_descriptions = {}
+ if show_sysctl_descriptions:
+ tunables = " ".join(str(x) for x in Tunable)
+ p = Popen("/sbin/sysctl -qde %s" % tunables, stdin=PIPE,
+ stdout=PIPE, stderr=PIPE, shell=True, close_fds=True)
+ p.wait()
+
+ descriptions = p.communicate()[0].split('\n')
+ if p.returncode != 0:
+ sys.exit(1)
+
+ for tunable in descriptions:
+ if not tunable:
+ continue
+ tunable = tunable.strip()
+ name, description = tunable.split('=')[:2]
+ name = name.strip()
+ description = description.strip()
+ if not description:
+ description = "Description unavailable"
+ sysctl_descriptions[name] = description
+
+ tunables = " ".join(str(x) for x in Tunable)
+ p = Popen("/sbin/sysctl -qe %s" % tunables, stdin=PIPE,
+ stdout=PIPE, stderr=PIPE, shell=True, close_fds=True)
+ p.wait()
+
+ zfs_tunables = p.communicate()[0].split('\n')
+ if p.returncode != 0:
+ sys.exit(1)
+
+ sys.stdout.write("ZFS Tunable (sysctl):\n")
+ for tunable in zfs_tunables:
+ if not tunable:
+ continue
+ tunable = tunable.strip()
+ name, value = tunable.split("=")[0:2]
+ name = name.strip()
+ value = D(value.strip())
+ format = "\t%s=%d\n" if alternate_sysctl_layout else "\t%-40s%d\n"
+ if show_sysctl_descriptions:
+ sys.stdout.write("\t\# %s\n" % sysctl_descriptions[name])
+ sys.stdout.write(format % (name, value))
+
+
+unSub = [
+ _system_memory,
+ _arc_summary,
+ _arc_efficiency,
+ _l2arc_summary,
+ _dmu_summary,
+ _vdev_summary,
+ _sysctl_summary
+]
+
+
+def _call_all():
+ page = 1
+ Kstat = get_Kstat()
+ for unsub in unSub:
+ unsub(Kstat)
+ sys.stdout.write("\t\t\t\t\t\t\t\tPage: %2d" % page)
+ div2()
+ page += 1
+
+
+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 main():
+ global show_sysctl_descriptions
+ global alternate_sysctl_layout
+
+ opts, args = getopt.getopt(
+ sys.argv[1:], "adp:"
+ )
+
+ args = {}
+ for opt, arg in opts:
+ if opt == '-a':
+ args['a'] = True
+ if opt == '-d':
+ args['d'] = True
+ if opt == '-p':
+ args['p'] = arg
+
+ if args:
+ alternate_sysctl_layout = True if 'a' in args else False
+ show_sysctl_descriptions = True if 'd' in args else False
+ try:
+ zfs_header()
+ unSub[int(args['p']) - 1]()
+ div2()
+
+ except:
+ _call_all()
+
+ else:
+ _call_all()
+
+
+if __name__ == '__main__':
+ main()