linux/tools/cgroup/iocost_monitor.py

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#!/usr/bin/env drgn
#
# Copyright (C) 2019 Tejun Heo <tj@kernel.org>
# Copyright (C) 2019 Facebook
desc = """
This is a drgn script to monitor the blk-iocost cgroup controller.
See the comment at the top of block/blk-iocost.c for more details.
For drgn, visit https://github.com/osandov/drgn.
"""
import sys
import re
import time
import json
import math
import drgn
from drgn import container_of
from drgn.helpers.linux.list import list_for_each_entry,list_empty
from drgn.helpers.linux.radixtree import radix_tree_for_each,radix_tree_lookup
import argparse
parser = argparse.ArgumentParser(description=desc,
formatter_class=argparse.RawTextHelpFormatter)
parser.add_argument('devname', metavar='DEV',
help='Target block device name (e.g. sda)')
parser.add_argument('--cgroup', action='append', metavar='REGEX',
help='Regex for target cgroups, ')
parser.add_argument('--interval', '-i', metavar='SECONDS', type=float, default=1,
help='Monitoring interval in seconds (0 exits immediately '
'after checking requirements)')
parser.add_argument('--json', action='store_true',
help='Output in json')
args = parser.parse_args()
def err(s):
print(s, file=sys.stderr, flush=True)
sys.exit(1)
try:
blkcg_root = prog['blkcg_root']
plid = prog['blkcg_policy_iocost'].plid.value_()
except:
err('The kernel does not have iocost enabled')
IOC_RUNNING = prog['IOC_RUNNING'].value_()
NR_USAGE_SLOTS = prog['NR_USAGE_SLOTS'].value_()
HWEIGHT_WHOLE = prog['HWEIGHT_WHOLE'].value_()
VTIME_PER_SEC = prog['VTIME_PER_SEC'].value_()
VTIME_PER_USEC = prog['VTIME_PER_USEC'].value_()
AUTOP_SSD_FAST = prog['AUTOP_SSD_FAST'].value_()
AUTOP_SSD_DFL = prog['AUTOP_SSD_DFL'].value_()
AUTOP_SSD_QD1 = prog['AUTOP_SSD_QD1'].value_()
AUTOP_HDD = prog['AUTOP_HDD'].value_()
autop_names = {
AUTOP_SSD_FAST: 'ssd_fast',
AUTOP_SSD_DFL: 'ssd_dfl',
AUTOP_SSD_QD1: 'ssd_qd1',
AUTOP_HDD: 'hdd',
}
class BlkgIterator:
def blkcg_name(blkcg):
return blkcg.css.cgroup.kn.name.string_().decode('utf-8')
def walk(self, blkcg, q_id, parent_path):
if not self.include_dying and \
not (blkcg.css.flags.value_() & prog['CSS_ONLINE'].value_()):
return
name = BlkgIterator.blkcg_name(blkcg)
path = parent_path + '/' + name if parent_path else name
blkg = drgn.Object(prog, 'struct blkcg_gq',
address=radix_tree_lookup(blkcg.blkg_tree.address_of_(), q_id))
if not blkg.address_:
return
self.blkgs.append((path if path else '/', blkg))
for c in list_for_each_entry('struct blkcg',
blkcg.css.children.address_of_(), 'css.sibling'):
self.walk(c, q_id, path)
def __init__(self, root_blkcg, q_id, include_dying=False):
self.include_dying = include_dying
self.blkgs = []
self.walk(root_blkcg, q_id, '')
def __iter__(self):
return iter(self.blkgs)
class IocStat:
def __init__(self, ioc):
global autop_names
self.enabled = ioc.enabled.value_()
self.running = ioc.running.value_() == IOC_RUNNING
self.period_ms = ioc.period_us.value_() / 1_000
self.period_at = ioc.period_at.value_() / 1_000_000
self.vperiod_at = ioc.period_at_vtime.value_() / VTIME_PER_SEC
self.vrate_pct = ioc.vtime_rate.counter.value_() * 100 / VTIME_PER_USEC
self.busy_level = ioc.busy_level.value_()
self.autop_idx = ioc.autop_idx.value_()
self.user_cost_model = ioc.user_cost_model.value_()
self.user_qos_params = ioc.user_qos_params.value_()
if self.autop_idx in autop_names:
self.autop_name = autop_names[self.autop_idx]
else:
self.autop_name = '?'
def dict(self, now):
return { 'device' : devname,
'timestamp' : now,
'enabled' : self.enabled,
'running' : self.running,
'period_ms' : self.period_ms,
'period_at' : self.period_at,
'period_vtime_at' : self.vperiod_at,
'busy_level' : self.busy_level,
'vrate_pct' : self.vrate_pct, }
def table_preamble_str(self):
state = ('RUN' if self.running else 'IDLE') if self.enabled else 'OFF'
output = f'{devname} {state:4} ' \
f'per={self.period_ms}ms ' \
f'cur_per={self.period_at:.3f}:v{self.vperiod_at:.3f} ' \
f'busy={self.busy_level:+3} ' \
f'vrate={self.vrate_pct:6.2f}% ' \
f'params={self.autop_name}'
if self.user_cost_model or self.user_qos_params:
output += f'({"C" if self.user_cost_model else ""}{"Q" if self.user_qos_params else ""})'
return output
def table_header_str(self):
return f'{"":25} active {"weight":>9} {"hweight%":>13} {"inflt%":>6} ' \
f'{"dbt":>3} {"delay":>6} {"usages%"}'
class IocgStat:
def __init__(self, iocg):
ioc = iocg.ioc
blkg = iocg.pd.blkg
self.is_active = not list_empty(iocg.active_list.address_of_())
self.weight = iocg.weight.value_()
self.active = iocg.active.value_()
self.inuse = iocg.inuse.value_()
self.hwa_pct = iocg.hweight_active.value_() * 100 / HWEIGHT_WHOLE
self.hwi_pct = iocg.hweight_inuse.value_() * 100 / HWEIGHT_WHOLE
self.address = iocg.value_()
vdone = iocg.done_vtime.counter.value_()
vtime = iocg.vtime.counter.value_()
vrate = ioc.vtime_rate.counter.value_()
period_vtime = ioc.period_us.value_() * vrate
if period_vtime:
self.inflight_pct = (vtime - vdone) * 100 / period_vtime
else:
self.inflight_pct = 0
iocost: protect iocg->abs_vdebt with iocg->waitq.lock abs_vdebt is an atomic_64 which tracks how much over budget a given cgroup is and controls the activation of use_delay mechanism. Once a cgroup goes over budget from forced IOs, it has to pay it back with its future budget. The progress guarantee on debt paying comes from the iocg being active - active iocgs are processed by the periodic timer, which ensures that as time passes the debts dissipate and the iocg returns to normal operation. However, both iocg activation and vdebt handling are asynchronous and a sequence like the following may happen. 1. The iocg is in the process of being deactivated by the periodic timer. 2. A bio enters ioc_rqos_throttle(), calls iocg_activate() which returns without anything because it still sees that the iocg is already active. 3. The iocg is deactivated. 4. The bio from #2 is over budget but needs to be forced. It increases abs_vdebt and goes over the threshold and enables use_delay. 5. IO control is enabled for the iocg's subtree and now IOs are attributed to the descendant cgroups and the iocg itself no longer issues IOs. This leaves the iocg with stuck abs_vdebt - it has debt but inactive and no further IOs which can activate it. This can end up unduly punishing all the descendants cgroups. The usual throttling path has the same issue - the iocg must be active while throttled to ensure that future event will wake it up - and solves the problem by synchronizing the throttling path with a spinlock. abs_vdebt handling is another form of overage handling and shares a lot of characteristics including the fact that it isn't in the hottest path. This patch fixes the above and other possible races by strictly synchronizing abs_vdebt and use_delay handling with iocg->waitq.lock. Signed-off-by: Tejun Heo <tj@kernel.org> Reported-by: Vlad Dmitriev <vvd@fb.com> Cc: stable@vger.kernel.org # v5.4+ Fixes: e1518f63f246 ("blk-iocost: Don't let merges push vtime into the future") Signed-off-by: Jens Axboe <axboe@kernel.dk>
2020-05-05 07:27:54 +08:00
# vdebt used to be an atomic64_t and is now u64, support both
try:
self.debt_ms = iocg.abs_vdebt.counter.value_() / VTIME_PER_USEC / 1000
except:
self.debt_ms = iocg.abs_vdebt.value_() / VTIME_PER_USEC / 1000
self.use_delay = blkg.use_delay.counter.value_()
self.delay_ms = blkg.delay_nsec.counter.value_() / 1_000_000
usage_idx = iocg.usage_idx.value_()
self.usages = []
self.usage = 0
for i in range(NR_USAGE_SLOTS):
usage = iocg.usages[(usage_idx + 1 + i) % NR_USAGE_SLOTS].value_()
upct = usage * 100 / HWEIGHT_WHOLE
self.usages.append(upct)
self.usage = max(self.usage, upct)
def dict(self, now, path):
out = { 'cgroup' : path,
'timestamp' : now,
'is_active' : self.is_active,
'weight' : self.weight,
'weight_active' : self.active,
'weight_inuse' : self.inuse,
'hweight_active_pct' : self.hwa_pct,
'hweight_inuse_pct' : self.hwi_pct,
'inflight_pct' : self.inflight_pct,
'debt_ms' : self.debt_ms,
'use_delay' : self.use_delay,
'delay_ms' : self.delay_ms,
'usage_pct' : self.usage,
'address' : self.address }
for i in range(len(self.usages)):
out[f'usage_pct_{i}'] = str(self.usages[i])
return out
def table_row_str(self, path):
out = f'{path[-28:]:28} ' \
f'{"*" if self.is_active else " "} ' \
f'{self.inuse:5}/{self.active:5} ' \
f'{self.hwi_pct:6.2f}/{self.hwa_pct:6.2f} ' \
f'{self.inflight_pct:6.2f} ' \
f'{min(math.ceil(self.debt_ms), 999):3} ' \
f'{min(self.use_delay, 99):2}*'\
f'{min(math.ceil(self.delay_ms), 999):03} '
for u in self.usages:
out += f'{min(round(u), 999):03d}:'
out = out.rstrip(':')
return out
# handle args
table_fmt = not args.json
interval = args.interval
devname = args.devname
if args.json:
table_fmt = False
re_str = None
if args.cgroup:
for r in args.cgroup:
if re_str is None:
re_str = r
else:
re_str += '|' + r
filter_re = re.compile(re_str) if re_str else None
# Locate the roots
q_id = None
root_iocg = None
ioc = None
for i, ptr in radix_tree_for_each(blkcg_root.blkg_tree.address_of_()):
blkg = drgn.Object(prog, 'struct blkcg_gq', address=ptr)
try:
if devname == blkg.q.kobj.parent.name.string_().decode('utf-8'):
q_id = blkg.q.id.value_()
if blkg.pd[plid]:
root_iocg = container_of(blkg.pd[plid], 'struct ioc_gq', 'pd')
ioc = root_iocg.ioc
break
except:
pass
if ioc is None:
err(f'Could not find ioc for {devname}');
if interval == 0:
sys.exit(0)
# Keep printing
while True:
now = time.time()
iocstat = IocStat(ioc)
output = ''
if table_fmt:
output += '\n' + iocstat.table_preamble_str()
output += '\n' + iocstat.table_header_str()
else:
output += json.dumps(iocstat.dict(now))
for path, blkg in BlkgIterator(blkcg_root, q_id):
if filter_re and not filter_re.match(path):
continue
if not blkg.pd[plid]:
continue
iocg = container_of(blkg.pd[plid], 'struct ioc_gq', 'pd')
iocg_stat = IocgStat(iocg)
if not filter_re and not iocg_stat.is_active:
continue
if table_fmt:
output += '\n' + iocg_stat.table_row_str(path)
else:
output += '\n' + json.dumps(iocg_stat.dict(now, path))
print(output)
sys.stdout.flush()
time.sleep(interval)