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#!/usr/bin/env python3
# SPDX-License-Identifier: GPL-2.0
import json
import os
import subprocess
import _damon_sysfs
def dump_damon_status_dict(pid):
try:
subprocess.check_output(['which', 'drgn'], stderr=subprocess.DEVNULL)
except:
return None, 'drgn not found'
file_dir = os.path.dirname(os.path.abspath(__file__))
dump_script = os.path.join(file_dir, 'drgn_dump_damon_status.py')
rc = subprocess.call(['drgn', dump_script, pid, 'damon_dump_output'],
stderr=subprocess.DEVNULL)
if rc != 0:
return None, 'drgn fail'
try:
with open('damon_dump_output', 'r') as f:
return json.load(f), None
except Exception as e:
return None, 'json.load fail (%s)' % e
kdamonds = None
def fail(expectation, status):
print('unexpected %s' % expectation)
print(json.dumps(status, indent=4))
if kdamonds is not None:
kdamonds.stop()
exit(1)
def assert_true(condition, expectation, status):
if condition is not True:
fail(expectation, status)
def assert_watermarks_committed(watermarks, dump):
wmark_metric_val = {
'none': 0,
'free_mem_rate': 1,
}
assert_true(dump['metric'] == wmark_metric_val[watermarks.metric],
'metric', dump)
assert_true(dump['interval'] == watermarks.interval, 'interval', dump)
assert_true(dump['high'] == watermarks.high, 'high', dump)
assert_true(dump['mid'] == watermarks.mid, 'mid', dump)
assert_true(dump['low'] == watermarks.low, 'low', dump)
def assert_quota_goal_committed(qgoal, dump):
metric_val = {
'user_input': 0,
'some_mem_psi_us': 1,
'node_mem_used_bp': 2,
'node_mem_free_bp': 3,
}
assert_true(dump['metric'] == metric_val[qgoal.metric], 'metric', dump)
assert_true(dump['target_value'] == qgoal.target_value, 'target_value',
dump)
if qgoal.metric == 'user_input':
assert_true(dump['current_value'] == qgoal.current_value,
'current_value', dump)
assert_true(dump['nid'] == qgoal.nid, 'nid', dump)
def assert_quota_committed(quota, dump):
assert_true(dump['reset_interval'] == quota.reset_interval_ms,
'reset_interval', dump)
assert_true(dump['ms'] == quota.ms, 'ms', dump)
assert_true(dump['sz'] == quota.sz, 'sz', dump)
for idx, qgoal in enumerate(quota.goals):
assert_quota_goal_committed(qgoal, dump['goals'][idx])
tuner_val = {
'consist': 0,
'temporal': 1,
}
assert_true(dump['goal_tuner'] == tuner_val[quota.goal_tuner],
'goal_tuner', dump)
assert_true(dump['fail_charge_num'] == quota.fail_charge_num,
'fail_charge_num', dump)
assert_true(dump['fail_charge_denom'] == quota.fail_charge_denom,
'fail_charge_denom', dump)
assert_true(dump['weight_sz'] == quota.weight_sz_permil, 'weight_sz', dump)
assert_true(dump['weight_nr_accesses'] == quota.weight_nr_accesses_permil,
'weight_nr_accesses', dump)
assert_true(
dump['weight_age'] == quota.weight_age_permil, 'weight_age', dump)
def assert_migrate_dests_committed(dests, dump):
assert_true(dump['nr_dests'] == len(dests.dests), 'nr_dests', dump)
for idx, dest in enumerate(dests.dests):
assert_true(dump['node_id_arr'][idx] == dest.id, 'node_id', dump)
assert_true(dump['weight_arr'][idx] == dest.weight, 'weight', dump)
def assert_filter_committed(filter_, dump):
assert_true(filter_.type_ == dump['type'], 'type', dump)
assert_true(filter_.matching == dump['matching'], 'matching', dump)
assert_true(filter_.allow == dump['allow'], 'allow', dump)
# TODO: check memcg_path and memcg_id if type is memcg
if filter_.type_ == 'addr':
assert_true([filter_.addr_start, filter_.addr_end] ==
dump['addr_range'], 'addr_range', dump)
elif filter_.type_ == 'target':
assert_true(filter_.target_idx == dump['target_idx'], 'target_idx',
dump)
elif filter_.type_ == 'hugepage_size':
assert_true([filter_.min_, filter_.max_] == dump['sz_range'],
'sz_range', dump)
def assert_access_pattern_committed(pattern, dump):
assert_true(dump['min_sz_region'] == pattern.size[0], 'min_sz_region',
dump)
assert_true(dump['max_sz_region'] == pattern.size[1], 'max_sz_region',
dump)
assert_true(dump['min_nr_accesses'] == pattern.nr_accesses[0],
'min_nr_accesses', dump)
assert_true(dump['max_nr_accesses'] == pattern.nr_accesses[1],
'max_nr_accesses', dump)
assert_true(dump['min_age_region'] == pattern.age[0], 'min_age_region',
dump)
assert_true(dump['max_age_region'] == pattern.age[1], 'miaxage_region',
dump)
def assert_scheme_committed(scheme, dump):
assert_access_pattern_committed(scheme.access_pattern, dump['pattern'])
action_val = {
'willneed': 0,
'cold': 1,
'pageout': 2,
'hugepage': 3,
'nohugeapge': 4,
'collapse': 5,
'lru_prio': 6,
'lru_deprio': 7,
'migrate_hot': 8,
'migrate_cold': 9,
'stat': 10,
}
assert_true(dump['action'] == action_val[scheme.action], 'action', dump)
assert_true(dump['apply_interval_us'] == scheme. apply_interval_us,
'apply_interval_us', dump)
assert_true(dump['target_nid'] == scheme.target_nid, 'target_nid', dump)
assert_migrate_dests_committed(scheme.dests, dump['migrate_dests'])
assert_quota_committed(scheme.quota, dump['quota'])
assert_watermarks_committed(scheme.watermarks, dump['wmarks'])
# TODO: test filters directory
for idx, f in enumerate(scheme.core_filters.filters):
assert_filter_committed(f, dump['core_filters'][idx])
for idx, f in enumerate(scheme.ops_filters.filters):
assert_filter_committed(f, dump['ops_filters'][idx])
def assert_schemes_committed(schemes, dump):
assert_true(len(schemes) == len(dump), 'len_schemes', dump)
for idx, scheme in enumerate(schemes):
assert_scheme_committed(scheme, dump[idx])
def assert_monitoring_attrs_committed(attrs, dump):
assert_true(dump['sample_interval'] == attrs.sample_us, 'sample_interval',
dump)
assert_true(dump['aggr_interval'] == attrs.aggr_us, 'aggr_interval', dump)
assert_true(dump['intervals_goal']['access_bp'] ==
attrs.intervals_goal.access_bp, 'access_bp',
dump['intervals_goal'])
assert_true(dump['intervals_goal']['aggrs'] == attrs.intervals_goal.aggrs,
'aggrs', dump['intervals_goal'])
assert_true(dump['intervals_goal']['min_sample_us'] ==
attrs.intervals_goal.min_sample_us, 'min_sample_us',
dump['intervals_goal'])
assert_true(dump['intervals_goal']['max_sample_us'] ==
attrs.intervals_goal.max_sample_us, 'max_sample_us',
dump['intervals_goal'])
assert_true(dump['ops_update_interval'] == attrs.update_us,
'ops_update_interval', dump)
assert_true(dump['min_nr_regions'] == attrs.min_nr_regions,
'min_nr_regions', dump)
assert_true(dump['max_nr_regions'] == attrs.max_nr_regions,
'max_nr_regions', dump)
def assert_monitoring_target_committed(target, dump):
# target.pid is the pid "number", while dump['pid'] is 'struct pid'
# pointer, and hence cannot be compared.
assert_true(dump['obsolete'] == target.obsolete, 'target obsolete', dump)
def assert_monitoring_targets_committed(targets, dump):
assert_true(len(targets) == len(dump), 'len_targets', dump)
for idx, target in enumerate(targets):
assert_monitoring_target_committed(target, dump[idx])
def assert_ctx_committed(ctx, dump):
ops_val = {
'vaddr': 0,
'fvaddr': 1,
'paddr': 2,
}
assert_true(dump['ops']['id'] == ops_val[ctx.ops], 'ops_id', dump)
assert_monitoring_attrs_committed(ctx.monitoring_attrs, dump['attrs'])
assert_monitoring_targets_committed(ctx.targets, dump['adaptive_targets'])
assert_schemes_committed(ctx.schemes, dump['schemes'])
assert_true(dump['pause'] == ctx.pause, 'pause', dump)
def assert_ctxs_committed(kdamonds):
ctxs_paused_for_dump = []
kdamonds_paused_for_dump = []
# pause for safe state dumping
for kd in kdamonds.kdamonds:
for ctx in kd.contexts:
if ctx.pause is False:
ctx.pause = True
ctxs_paused_for_dump.append(ctx)
if not kd in kdamonds_paused_for_dump:
kdamonds_paused_for_dump.append(kd)
if kd in kdamonds_paused_for_dump:
err = kd.commit()
if err is not None:
print('pause fail (%s)' % err)
kdamonds.stop()
exit(1)
status, err = dump_damon_status_dict(kdamonds.kdamonds[0].pid)
if err is not None:
print(err)
kdamonds.stop()
exit(1)
# resume contexts paused for safe state dumping
for ctx in ctxs_paused_for_dump:
ctx.pause = False
for kd in kdamonds_paused_for_dump:
err = kd.commit()
if err is not None:
print('resume fail (%s)' % err)
kdamonds.stop()
exit(1)
# restore for comparison
for ctx in ctxs_paused_for_dump:
ctx.pause = True
ctxs = kdamonds.kdamonds[0].contexts
dump = status['contexts']
assert_true(len(ctxs) == len(dump), 'ctxs length', dump)
for idx, ctx in enumerate(ctxs):
assert_ctx_committed(ctx, dump[idx])
# restore for the caller
for kd in kdamonds.kdamonds:
for ctx in kd.contexts:
if ctx in ctxs_paused_for_dump:
ctx.pause = False
def main():
global kdamonds
kdamonds = _damon_sysfs.Kdamonds(
[_damon_sysfs.Kdamond(
contexts=[_damon_sysfs.DamonCtx(
targets=[_damon_sysfs.DamonTarget(pid=-1)],
schemes=[_damon_sysfs.Damos()],
)])])
err = kdamonds.start()
if err is not None:
print('kdamond start failed: %s' % err)
exit(1)
assert_ctxs_committed(kdamonds)
context = _damon_sysfs.DamonCtx(
monitoring_attrs=_damon_sysfs.DamonAttrs(
sample_us=100000, aggr_us=2000000,
intervals_goal=_damon_sysfs.IntervalsGoal(
access_bp=400, aggrs=3, min_sample_us=5000,
max_sample_us=10000000),
update_us=2000000),
schemes=[_damon_sysfs.Damos(
action='pageout',
access_pattern=_damon_sysfs.DamosAccessPattern(
size=[4096, 2**10],
nr_accesses=[3, 317],
age=[5,71]),
quota=_damon_sysfs.DamosQuota(
sz=100*1024*1024, ms=100,
goals=[_damon_sysfs.DamosQuotaGoal(
metric='node_mem_used_bp',
target_value=9950,
nid=1)],
goal_tuner='temporal',
reset_interval_ms=1500,
fail_charge_num=1,
fail_charge_denom=4096,
weight_sz_permil=20,
weight_nr_accesses_permil=200,
weight_age_permil=1000),
watermarks=_damon_sysfs.DamosWatermarks(
metric = 'free_mem_rate', interval = 500000, # 500 ms
high = 500, mid = 400, low = 50),
target_nid=1,
apply_interval_us=1000000,
dests=_damon_sysfs.DamosDests(
dests=[_damon_sysfs.DamosDest(id=1, weight=30),
_damon_sysfs.DamosDest(id=0, weight=70)]),
core_filters=[
_damon_sysfs.DamosFilter(type_='addr', matching=True,
allow=False, addr_start=42,
addr_end=4242),
],
ops_filters=[
_damon_sysfs.DamosFilter(type_='anon', matching=True,
allow=True),
],
)])
context.idx = 0
context.kdamond = kdamonds.kdamonds[0]
kdamonds.kdamonds[0].contexts = [context]
kdamonds.kdamonds[0].commit()
assert_ctxs_committed(kdamonds)
# test online commitment of minimum context.
context = _damon_sysfs.DamonCtx()
context.idx = 0
context.kdamond = kdamonds.kdamonds[0]
kdamonds.kdamonds[0].contexts = [context]
kdamonds.kdamonds[0].commit()
assert_ctxs_committed(kdamonds)
kdamonds.stop()
# test obsolete_target.
proc1 = subprocess.Popen(['sh'], stdout=subprocess.PIPE,
stderr=subprocess.PIPE)
proc2 = subprocess.Popen(['sh'], stdout=subprocess.PIPE,
stderr=subprocess.PIPE)
proc3 = subprocess.Popen(['sh'], stdout=subprocess.PIPE,
stderr=subprocess.PIPE)
kdamonds = _damon_sysfs.Kdamonds(
[_damon_sysfs.Kdamond(
contexts=[_damon_sysfs.DamonCtx(
ops='vaddr',
targets=[
_damon_sysfs.DamonTarget(pid=proc1.pid),
_damon_sysfs.DamonTarget(pid=proc2.pid),
_damon_sysfs.DamonTarget(pid=proc3.pid),
],
schemes=[_damon_sysfs.Damos()],
)])])
err = kdamonds.start()
if err is not None:
print('kdamond start failed: %s' % err)
exit(1)
kdamonds.kdamonds[0].contexts[0].targets[1].obsolete = True
kdamonds.kdamonds[0].contexts[0].pause = True
kdamonds.kdamonds[0].commit()
del kdamonds.kdamonds[0].contexts[0].targets[1]
assert_ctxs_committed(kdamonds)
kdamonds.stop()
if __name__ == '__main__':
main()
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