mirror_zfs/cmd/arcstat.in
Ameer Hamza b3b37b84e8 Fix arcstats for FreeBSD after zfetch support
Reviewed-by: Brian Behlendorf <behlendorf1@llnl.gov>
Reviewed-by: Alexander Motin <mav@FreeBSD.org>
Signed-off-by: Ameer Hamza <ahamza@ixsystems.com>
Closes #16141
2024-04-29 13:50:05 -07:00

681 lines
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#!/usr/bin/env @PYTHON_SHEBANG@
#
# Print out ZFS ARC Statistics exported via kstat(1)
# For a definition of fields, or usage, use arcstat -v
#
# This script was originally a fork of the original arcstat.pl (0.1)
# by Neelakanth Nadgir, originally published on his Sun blog on
# 09/18/2007
# http://blogs.sun.com/realneel/entry/zfs_arc_statistics
#
# A new version aimed to improve upon the original by adding features
# and fixing bugs as needed. This version was maintained by Mike
# Harsch and was hosted in a public open source repository:
# http://github.com/mharsch/arcstat
#
# but has since moved to the illumos-gate repository.
#
# This Python port was written by John Hixson for FreeNAS, introduced
# in commit e2c29f:
# https://github.com/freenas/freenas
#
# and has been improved by many people since.
#
# CDDL HEADER START
#
# The contents of this file are subject to the terms of the
# Common Development and Distribution License, Version 1.0 only
# (the "License"). You may not use this file except in compliance
# with the License.
#
# You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
# or https://opensource.org/licenses/CDDL-1.0.
# See the License for the specific language governing permissions
# and limitations under the License.
#
# When distributing Covered Code, include this CDDL HEADER in each
# file and include the License file at usr/src/OPENSOLARIS.LICENSE.
# If applicable, add the following below this CDDL HEADER, with the
# fields enclosed by brackets "[]" replaced with your own identifying
# information: Portions Copyright [yyyy] [name of copyright owner]
#
# CDDL HEADER END
#
#
# Fields have a fixed width. Every interval, we fill the "v"
# hash with its corresponding value (v[field]=value) using calculate().
# @hdr is the array of fields that needs to be printed, so we
# just iterate over this array and print the values using our pretty printer.
#
# This script must remain compatible with Python 3.6+.
#
import sys
import time
import getopt
import re
import copy
from signal import signal, SIGINT, SIGWINCH, SIG_DFL
cols = {
# HDR: [Size, Scale, Description]
"time": [8, -1, "Time"],
"hits": [4, 1000, "ARC hits per second"],
"iohs": [4, 1000, "ARC I/O hits per second"],
"miss": [4, 1000, "ARC misses per second"],
"read": [4, 1000, "Total ARC accesses per second"],
"hit%": [4, 100, "ARC hit percentage"],
"ioh%": [4, 100, "ARC I/O hit percentage"],
"miss%": [5, 100, "ARC miss percentage"],
"dhit": [4, 1000, "Demand hits per second"],
"dioh": [4, 1000, "Demand I/O hits per second"],
"dmis": [4, 1000, "Demand misses per second"],
"dh%": [3, 100, "Demand hit percentage"],
"di%": [3, 100, "Demand I/O hit percentage"],
"dm%": [3, 100, "Demand miss percentage"],
"ddhit": [5, 1000, "Demand data hits per second"],
"ddioh": [5, 1000, "Demand data I/O hits per second"],
"ddmis": [5, 1000, "Demand data misses per second"],
"ddh%": [4, 100, "Demand data hit percentage"],
"ddi%": [4, 100, "Demand data I/O hit percentage"],
"ddm%": [4, 100, "Demand data miss percentage"],
"dmhit": [5, 1000, "Demand metadata hits per second"],
"dmioh": [5, 1000, "Demand metadata I/O hits per second"],
"dmmis": [5, 1000, "Demand metadata misses per second"],
"dmh%": [4, 100, "Demand metadata hit percentage"],
"dmi%": [4, 100, "Demand metadata I/O hit percentage"],
"dmm%": [4, 100, "Demand metadata miss percentage"],
"phit": [4, 1000, "Prefetch hits per second"],
"pioh": [4, 1000, "Prefetch I/O hits per second"],
"pmis": [4, 1000, "Prefetch misses per second"],
"ph%": [3, 100, "Prefetch hits percentage"],
"pi%": [3, 100, "Prefetch I/O hits percentage"],
"pm%": [3, 100, "Prefetch miss percentage"],
"pdhit": [5, 1000, "Prefetch data hits per second"],
"pdioh": [5, 1000, "Prefetch data I/O hits per second"],
"pdmis": [5, 1000, "Prefetch data misses per second"],
"pdh%": [4, 100, "Prefetch data hits percentage"],
"pdi%": [4, 100, "Prefetch data I/O hits percentage"],
"pdm%": [4, 100, "Prefetch data miss percentage"],
"pmhit": [5, 1000, "Prefetch metadata hits per second"],
"pmioh": [5, 1000, "Prefetch metadata I/O hits per second"],
"pmmis": [5, 1000, "Prefetch metadata misses per second"],
"pmh%": [4, 100, "Prefetch metadata hits percentage"],
"pmi%": [4, 100, "Prefetch metadata I/O hits percentage"],
"pmm%": [4, 100, "Prefetch metadata miss percentage"],
"mhit": [4, 1000, "Metadata hits per second"],
"mioh": [4, 1000, "Metadata I/O hits per second"],
"mmis": [4, 1000, "Metadata misses per second"],
"mread": [5, 1000, "Metadata accesses per second"],
"mh%": [3, 100, "Metadata hit percentage"],
"mi%": [3, 100, "Metadata I/O hit percentage"],
"mm%": [3, 100, "Metadata miss percentage"],
"arcsz": [5, 1024, "ARC size"],
"size": [5, 1024, "ARC size"],
"c": [5, 1024, "ARC target size"],
"mfu": [4, 1000, "MFU list hits per second"],
"mru": [4, 1000, "MRU list hits per second"],
"mfug": [4, 1000, "MFU ghost list hits per second"],
"mrug": [4, 1000, "MRU ghost list hits per second"],
"unc": [4, 1000, "Uncached list hits per second"],
"eskip": [5, 1000, "evict_skip per second"],
"el2skip": [7, 1000, "evict skip, due to l2 writes, per second"],
"el2cach": [7, 1024, "Size of L2 cached evictions per second"],
"el2el": [5, 1024, "Size of L2 eligible evictions per second"],
"el2mfu": [6, 1024, "Size of L2 eligible MFU evictions per second"],
"el2mru": [6, 1024, "Size of L2 eligible MRU evictions per second"],
"el2inel": [7, 1024, "Size of L2 ineligible evictions per second"],
"mtxmis": [6, 1000, "mutex_miss per second"],
"dread": [5, 1000, "Demand accesses per second"],
"ddread": [6, 1000, "Demand data accesses per second"],
"dmread": [6, 1000, "Demand metadata accesses per second"],
"pread": [5, 1000, "Prefetch accesses per second"],
"pdread": [6, 1000, "Prefetch data accesses per second"],
"pmread": [6, 1000, "Prefetch metadata accesses per second"],
"l2hits": [6, 1000, "L2ARC hits per second"],
"l2miss": [6, 1000, "L2ARC misses per second"],
"l2read": [6, 1000, "Total L2ARC accesses per second"],
"l2hit%": [6, 100, "L2ARC access hit percentage"],
"l2miss%": [7, 100, "L2ARC access miss percentage"],
"l2pref": [6, 1024, "L2ARC prefetch allocated size"],
"l2mfu": [5, 1024, "L2ARC MFU allocated size"],
"l2mru": [5, 1024, "L2ARC MRU allocated size"],
"l2data": [6, 1024, "L2ARC data allocated size"],
"l2meta": [6, 1024, "L2ARC metadata allocated size"],
"l2pref%": [7, 100, "L2ARC prefetch percentage"],
"l2mfu%": [6, 100, "L2ARC MFU percentage"],
"l2mru%": [6, 100, "L2ARC MRU percentage"],
"l2data%": [7, 100, "L2ARC data percentage"],
"l2meta%": [7, 100, "L2ARC metadata percentage"],
"l2asize": [7, 1024, "Actual (compressed) size of the L2ARC"],
"l2size": [6, 1024, "Size of the L2ARC"],
"l2bytes": [7, 1024, "Bytes read per second from the L2ARC"],
"grow": [4, 1000, "ARC grow disabled"],
"need": [5, 1024, "ARC reclaim need"],
"free": [5, 1024, "ARC free memory"],
"avail": [5, 1024, "ARC available memory"],
"waste": [5, 1024, "Wasted memory due to round up to pagesize"],
"ztotal": [6, 1000, "zfetch total prefetcher calls per second"],
"zhits": [5, 1000, "zfetch stream hits per second"],
"zahead": [6, 1000, "zfetch hits ahead of streams per second"],
"zpast": [5, 1000, "zfetch hits behind streams per second"],
"zmisses": [7, 1000, "zfetch stream misses per second"],
"zmax": [4, 1000, "zfetch limit reached per second"],
"zfuture": [7, 1000, "zfetch stream future per second"],
"zstride": [7, 1000, "zfetch stream strides per second"],
"zissued": [7, 1000, "zfetch prefetches issued per second"],
"zactive": [7, 1000, "zfetch prefetches active per second"],
}
v = {}
hdr = ["time", "read", "ddread", "ddh%", "dmread", "dmh%", "pread", "ph%",
"size", "c", "avail"]
xhdr = ["time", "mfu", "mru", "mfug", "mrug", "unc", "eskip", "mtxmis",
"dread", "pread", "read"]
zhdr = ["time", "ztotal", "zhits", "zahead", "zpast", "zmisses", "zmax",
"zfuture", "zstride", "zissued", "zactive"]
sint = 1 # Default interval is 1 second
count = 1 # Default count is 1
hdr_intr = 20 # Print header every 20 lines of output
opfile = None
sep = " " # Default separator is 2 spaces
l2exist = False
cmd = ("Usage: arcstat [-havxp] [-f fields] [-o file] [-s string] [interval "
"[count]]\n")
cur = {}
d = {}
out = None
kstat = None
pretty_print = True
if sys.platform.startswith('freebsd'):
# Requires py-sysctl on FreeBSD
import sysctl
def kstat_update():
global kstat
k = [ctl for ctl in sysctl.filter('kstat.zfs.misc.arcstats')
if ctl.type != sysctl.CTLTYPE_NODE]
k += [ctl for ctl in sysctl.filter('kstat.zfs.misc.zfetchstats')
if ctl.type != sysctl.CTLTYPE_NODE]
if not k:
sys.exit(1)
kstat = {}
for s in k:
if not s:
continue
name, value = s.name, s.value
if "arcstats" in name:
# Trims 'kstat.zfs.misc.arcstats' from the name
kstat[name[24:]] = int(value)
else:
kstat["zfetch_" + name[27:]] = int(value)
elif sys.platform.startswith('linux'):
def kstat_update():
global kstat
k1 = [line.strip() for line in open('/proc/spl/kstat/zfs/arcstats')]
k2 = ["zfetch_" + line.strip() for line in
open('/proc/spl/kstat/zfs/zfetchstats')]
if k1 is None or k2 is None:
sys.exit(1)
del k1[0:2]
del k2[0:2]
k = k1 + k2
kstat = {}
for s in k:
if not s:
continue
name, unused, value = s.split()
kstat[name] = int(value)
def detailed_usage():
sys.stderr.write("%s\n" % cmd)
sys.stderr.write("Field definitions are as follows:\n")
for key in cols:
sys.stderr.write("%11s : %s\n" % (key, cols[key][2]))
sys.stderr.write("\n")
sys.exit(0)
def usage():
sys.stderr.write("%s\n" % cmd)
sys.stderr.write("\t -h : Print this help message\n")
sys.stderr.write("\t -a : Print all possible stats\n")
sys.stderr.write("\t -v : List all possible field headers and definitions"
"\n")
sys.stderr.write("\t -x : Print extended stats\n")
sys.stderr.write("\t -z : Print zfetch stats\n")
sys.stderr.write("\t -f : Specify specific fields to print (see -v)\n")
sys.stderr.write("\t -o : Redirect output to the specified file\n")
sys.stderr.write("\t -s : Override default field separator with custom "
"character or string\n")
sys.stderr.write("\t -p : Disable auto-scaling of numerical fields\n")
sys.stderr.write("\nExamples:\n")
sys.stderr.write("\tarcstat -o /tmp/a.log 2 10\n")
sys.stderr.write("\tarcstat -s \",\" -o /tmp/a.log 2 10\n")
sys.stderr.write("\tarcstat -v\n")
sys.stderr.write("\tarcstat -f time,hit%,dh%,ph%,mh% 1\n")
sys.stderr.write("\n")
sys.exit(1)
def snap_stats():
global cur
global kstat
prev = copy.deepcopy(cur)
kstat_update()
cur = kstat
for key in cur:
if re.match(key, "class"):
continue
if key in prev:
d[key] = cur[key] - prev[key]
else:
d[key] = cur[key]
def prettynum(sz, scale, num=0):
suffix = [' ', 'K', 'M', 'G', 'T', 'P', 'E', 'Z']
index = 0
save = 0
# Special case for date field
if scale == -1:
return "%s" % num
# Rounding error, return 0
elif 0 < num < 1:
num = 0
while abs(num) > scale and index < 5:
save = num
num = num / scale
index += 1
if index == 0:
return "%*d" % (sz, num)
if abs(save / scale) < 10:
return "%*.1f%s" % (sz - 1, num, suffix[index])
else:
return "%*d%s" % (sz - 1, num, suffix[index])
def print_values():
global hdr
global sep
global v
global pretty_print
if pretty_print:
fmt = lambda col: prettynum(cols[col][0], cols[col][1], v[col])
else:
fmt = lambda col: str(v[col])
sys.stdout.write(sep.join(fmt(col) for col in hdr))
sys.stdout.write("\n")
sys.stdout.flush()
def print_header():
global hdr
global sep
global pretty_print
if pretty_print:
fmt = lambda col: "%*s" % (cols[col][0], col)
else:
fmt = lambda col: col
sys.stdout.write(sep.join(fmt(col) for col in hdr))
sys.stdout.write("\n")
def get_terminal_lines():
try:
import fcntl
import termios
import struct
data = fcntl.ioctl(sys.stdout.fileno(), termios.TIOCGWINSZ, '1234')
sz = struct.unpack('hh', data)
return sz[0]
except Exception:
pass
def update_hdr_intr():
global hdr_intr
lines = get_terminal_lines()
if lines and lines > 3:
hdr_intr = lines - 3
def resize_handler(signum, frame):
update_hdr_intr()
def init():
global sint
global count
global hdr
global xhdr
global zhdr
global opfile
global sep
global out
global l2exist
global pretty_print
desired_cols = None
aflag = False
xflag = False
hflag = False
vflag = False
zflag = False
i = 1
try:
opts, args = getopt.getopt(
sys.argv[1:],
"axzo:hvs:f:p",
[
"all",
"extended",
"zfetch",
"outfile",
"help",
"verbose",
"separator",
"columns",
"parsable"
]
)
except getopt.error as msg:
sys.stderr.write("Error: %s\n" % str(msg))
usage()
opts = None
for opt, arg in opts:
if opt in ('-a', '--all'):
aflag = True
if opt in ('-x', '--extended'):
xflag = True
if opt in ('-o', '--outfile'):
opfile = arg
i += 1
if opt in ('-h', '--help'):
hflag = True
if opt in ('-v', '--verbose'):
vflag = True
if opt in ('-s', '--separator'):
sep = arg
i += 1
if opt in ('-f', '--columns'):
desired_cols = arg
i += 1
if opt in ('-p', '--parsable'):
pretty_print = False
if opt in ('-z', '--zfetch'):
zflag = True
i += 1
argv = sys.argv[i:]
sint = int(argv[0]) if argv else sint
count = int(argv[1]) if len(argv) > 1 else (0 if len(argv) > 0 else 1)
if hflag or (xflag and zflag) or ((zflag or xflag) and desired_cols):
usage()
if vflag:
detailed_usage()
if xflag:
hdr = xhdr
if zflag:
hdr = zhdr
update_hdr_intr()
# check if L2ARC exists
snap_stats()
l2_size = cur.get("l2_size")
if l2_size:
l2exist = True
if desired_cols:
hdr = desired_cols.split(",")
invalid = []
incompat = []
for ele in hdr:
if ele not in cols:
invalid.append(ele)
elif not l2exist and ele.startswith("l2"):
sys.stdout.write("No L2ARC Here\n%s\n" % ele)
incompat.append(ele)
if len(invalid) > 0:
sys.stderr.write("Invalid column definition! -- %s\n" % invalid)
usage()
if len(incompat) > 0:
sys.stderr.write("Incompatible field specified! -- %s\n" %
incompat)
usage()
if aflag:
if l2exist:
hdr = cols.keys()
else:
hdr = [col for col in cols.keys() if not col.startswith("l2")]
if opfile:
try:
out = open(opfile, "w")
sys.stdout = out
except IOError:
sys.stderr.write("Cannot open %s for writing\n" % opfile)
sys.exit(1)
def calculate():
global d
global v
global l2exist
v = dict()
v["time"] = time.strftime("%H:%M:%S", time.localtime())
v["hits"] = d["hits"] // sint
v["iohs"] = d["iohits"] // sint
v["miss"] = d["misses"] // sint
v["read"] = v["hits"] + v["iohs"] + v["miss"]
v["hit%"] = 100 * v["hits"] // v["read"] if v["read"] > 0 else 0
v["ioh%"] = 100 * v["iohs"] // v["read"] if v["read"] > 0 else 0
v["miss%"] = 100 - v["hit%"] - v["ioh%"] if v["read"] > 0 else 0
v["dhit"] = (d["demand_data_hits"] + d["demand_metadata_hits"]) // sint
v["dioh"] = (d["demand_data_iohits"] + d["demand_metadata_iohits"]) // sint
v["dmis"] = (d["demand_data_misses"] + d["demand_metadata_misses"]) // sint
v["dread"] = v["dhit"] + v["dioh"] + v["dmis"]
v["dh%"] = 100 * v["dhit"] // v["dread"] if v["dread"] > 0 else 0
v["di%"] = 100 * v["dioh"] // v["dread"] if v["dread"] > 0 else 0
v["dm%"] = 100 - v["dh%"] - v["di%"] if v["dread"] > 0 else 0
v["ddhit"] = d["demand_data_hits"] // sint
v["ddioh"] = d["demand_data_iohits"] // sint
v["ddmis"] = d["demand_data_misses"] // sint
v["ddread"] = v["ddhit"] + v["ddioh"] + v["ddmis"]
v["ddh%"] = 100 * v["ddhit"] // v["ddread"] if v["ddread"] > 0 else 0
v["ddi%"] = 100 * v["ddioh"] // v["ddread"] if v["ddread"] > 0 else 0
v["ddm%"] = 100 - v["ddh%"] - v["ddi%"] if v["ddread"] > 0 else 0
v["dmhit"] = d["demand_metadata_hits"] // sint
v["dmioh"] = d["demand_metadata_iohits"] // sint
v["dmmis"] = d["demand_metadata_misses"] // sint
v["dmread"] = v["dmhit"] + v["dmioh"] + v["dmmis"]
v["dmh%"] = 100 * v["dmhit"] // v["dmread"] if v["dmread"] > 0 else 0
v["dmi%"] = 100 * v["dmioh"] // v["dmread"] if v["dmread"] > 0 else 0
v["dmm%"] = 100 - v["dmh%"] - v["dmi%"] if v["dmread"] > 0 else 0
v["phit"] = (d["prefetch_data_hits"] + d["prefetch_metadata_hits"]) // sint
v["pioh"] = (d["prefetch_data_iohits"] +
d["prefetch_metadata_iohits"]) // sint
v["pmis"] = (d["prefetch_data_misses"] +
d["prefetch_metadata_misses"]) // sint
v["pread"] = v["phit"] + v["pioh"] + v["pmis"]
v["ph%"] = 100 * v["phit"] // v["pread"] if v["pread"] > 0 else 0
v["pi%"] = 100 * v["pioh"] // v["pread"] if v["pread"] > 0 else 0
v["pm%"] = 100 - v["ph%"] - v["pi%"] if v["pread"] > 0 else 0
v["pdhit"] = d["prefetch_data_hits"] // sint
v["pdioh"] = d["prefetch_data_iohits"] // sint
v["pdmis"] = d["prefetch_data_misses"] // sint
v["pdread"] = v["pdhit"] + v["pdioh"] + v["pdmis"]
v["pdh%"] = 100 * v["pdhit"] // v["pdread"] if v["pdread"] > 0 else 0
v["pdi%"] = 100 * v["pdioh"] // v["pdread"] if v["pdread"] > 0 else 0
v["pdm%"] = 100 - v["pdh%"] - v["pdi%"] if v["pdread"] > 0 else 0
v["pmhit"] = d["prefetch_metadata_hits"] // sint
v["pmioh"] = d["prefetch_metadata_iohits"] // sint
v["pmmis"] = d["prefetch_metadata_misses"] // sint
v["pmread"] = v["pmhit"] + v["pmioh"] + v["pmmis"]
v["pmh%"] = 100 * v["pmhit"] // v["pmread"] if v["pmread"] > 0 else 0
v["pmi%"] = 100 * v["pmioh"] // v["pmread"] if v["pmread"] > 0 else 0
v["pmm%"] = 100 - v["pmh%"] - v["pmi%"] if v["pmread"] > 0 else 0
v["mhit"] = (d["prefetch_metadata_hits"] +
d["demand_metadata_hits"]) // sint
v["mioh"] = (d["prefetch_metadata_iohits"] +
d["demand_metadata_iohits"]) // sint
v["mmis"] = (d["prefetch_metadata_misses"] +
d["demand_metadata_misses"]) // sint
v["mread"] = v["mhit"] + v["mioh"] + v["mmis"]
v["mh%"] = 100 * v["mhit"] // v["mread"] if v["mread"] > 0 else 0
v["mi%"] = 100 * v["mioh"] // v["mread"] if v["mread"] > 0 else 0
v["mm%"] = 100 - v["mh%"] - v["mi%"] if v["mread"] > 0 else 0
v["arcsz"] = cur["size"]
v["size"] = cur["size"]
v["c"] = cur["c"]
v["mfu"] = d["mfu_hits"] // sint
v["mru"] = d["mru_hits"] // sint
v["mrug"] = d["mru_ghost_hits"] // sint
v["mfug"] = d["mfu_ghost_hits"] // sint
v["unc"] = d["uncached_hits"] // sint
v["eskip"] = d["evict_skip"] // sint
v["el2skip"] = d["evict_l2_skip"] // sint
v["el2cach"] = d["evict_l2_cached"] // sint
v["el2el"] = d["evict_l2_eligible"] // sint
v["el2mfu"] = d["evict_l2_eligible_mfu"] // sint
v["el2mru"] = d["evict_l2_eligible_mru"] // sint
v["el2inel"] = d["evict_l2_ineligible"] // sint
v["mtxmis"] = d["mutex_miss"] // sint
v["ztotal"] = (d["zfetch_hits"] + d["zfetch_future"] + d["zfetch_stride"] +
d["zfetch_past"] + d["zfetch_misses"]) // sint
v["zhits"] = d["zfetch_hits"] // sint
v["zahead"] = (d["zfetch_future"] + d["zfetch_stride"]) // sint
v["zpast"] = d["zfetch_past"] // sint
v["zmisses"] = d["zfetch_misses"] // sint
v["zmax"] = d["zfetch_max_streams"] // sint
v["zfuture"] = d["zfetch_future"] // sint
v["zstride"] = d["zfetch_stride"] // sint
v["zissued"] = d["zfetch_io_issued"] // sint
v["zactive"] = d["zfetch_io_active"] // sint
if l2exist:
v["l2hits"] = d["l2_hits"] // sint
v["l2miss"] = d["l2_misses"] // sint
v["l2read"] = v["l2hits"] + v["l2miss"]
v["l2hit%"] = 100 * v["l2hits"] // v["l2read"] if v["l2read"] > 0 else 0
v["l2miss%"] = 100 - v["l2hit%"] if v["l2read"] > 0 else 0
v["l2asize"] = cur["l2_asize"]
v["l2size"] = cur["l2_size"]
v["l2bytes"] = d["l2_read_bytes"] // sint
v["l2pref"] = cur["l2_prefetch_asize"]
v["l2mfu"] = cur["l2_mfu_asize"]
v["l2mru"] = cur["l2_mru_asize"]
v["l2data"] = cur["l2_bufc_data_asize"]
v["l2meta"] = cur["l2_bufc_metadata_asize"]
v["l2pref%"] = 100 * v["l2pref"] // v["l2asize"]
v["l2mfu%"] = 100 * v["l2mfu"] // v["l2asize"]
v["l2mru%"] = 100 * v["l2mru"] // v["l2asize"]
v["l2data%"] = 100 * v["l2data"] // v["l2asize"]
v["l2meta%"] = 100 * v["l2meta"] // v["l2asize"]
v["grow"] = 0 if cur["arc_no_grow"] else 1
v["need"] = cur["arc_need_free"]
v["free"] = cur["memory_free_bytes"]
v["avail"] = cur["memory_available_bytes"]
v["waste"] = cur["abd_chunk_waste_size"]
def main():
global sint
global count
global hdr_intr
i = 0
count_flag = 0
init()
if count > 0:
count_flag = 1
signal(SIGINT, SIG_DFL)
signal(SIGWINCH, resize_handler)
while True:
if i == 0:
print_header()
snap_stats()
calculate()
print_values()
if count_flag == 1:
if count <= 1:
break
count -= 1
i = 0 if i >= hdr_intr else i + 1
time.sleep(sint)
if out:
out.close()
if __name__ == '__main__':
main()