from __future__ import print_function
import arvados
-import gzip
+import collections
+import crunchstat_summary.chartjs
+import datetime
+import functools
+import itertools
+import math
import re
import sys
+from arvados.api import OrderedJsonModel
+from crunchstat_summary import logger
+
+# Recommend memory constraints that are this multiple of an integral
+# number of GiB. (Actual nodes tend to be sold in sizes like 8 GiB
+# that have amounts like 7.5 GiB according to the kernel.)
+AVAILABLE_RAM_RATIO = 0.95
+
+
+class Task(object):
+ def __init__(self):
+ self.starttime = None
+ self.series = collections.defaultdict(list)
+
class Summarizer(object):
- def __init__(self, args):
- self.args = args
+ existing_constraints = {}
+
+ def __init__(self, logdata, label=None):
+ self._logdata = logdata
+ self.label = label
+ self.starttime = None
+ self.finishtime = None
+ logger.debug("%s: logdata %s", self.label, repr(logdata))
def run(self):
- stats_max = {}
- for line in self._logdata():
- m = re.search(r'^\S+ \S+ \d+ (?P<seq>\d+) stderr crunchstat: (?P<category>\S+) (?P<current>.*?)( -- interval (?P<interval>.*))?\n', line)
+ logger.debug("%s: parsing log data", self.label)
+ # stats_max: {category: {stat: val}}
+ self.stats_max = collections.defaultdict(
+ functools.partial(collections.defaultdict,
+ lambda: float('-Inf')))
+ # task_stats: {task_id: {category: {stat: val}}}
+ self.task_stats = collections.defaultdict(
+ functools.partial(collections.defaultdict, dict))
+ self.tasks = collections.defaultdict(Task)
+ for line in self._logdata:
+ m = re.search(r'^\S+ \S+ \d+ (?P<seq>\d+) success in (?P<elapsed>\d+) seconds', line)
+ if m:
+ task_id = m.group('seq')
+ elapsed = int(m.group('elapsed'))
+ self.task_stats[task_id]['time'] = {'elapsed': elapsed}
+ if elapsed > self.stats_max['time']['elapsed']:
+ self.stats_max['time']['elapsed'] = elapsed
+ continue
+ m = re.search(r'^(?P<timestamp>\S+) (?P<job_uuid>\S+) \d+ (?P<seq>\d+) stderr crunchstat: (?P<category>\S+) (?P<current>.*?)( -- interval (?P<interval>.*))?\n', line)
if not m:
continue
+ if self.label is None:
+ self.label = m.group('job_uuid')
+ logger.debug('%s: using job uuid as label', self.label)
if m.group('category').endswith(':'):
# "notice:" etc.
continue
+ elif m.group('category') == 'error':
+ continue
+ task_id = m.group('seq')
+ task = self.tasks[task_id]
+
+ # Use the first and last crunchstat timestamps as
+ # approximations of starttime and finishtime.
+ timestamp = datetime.datetime.strptime(
+ m.group('timestamp'), '%Y-%m-%d_%H:%M:%S')
+ if not task.starttime:
+ task.starttime = timestamp
+ logger.debug('%s: task %s starttime %s',
+ self.label, task_id, timestamp)
+ task.finishtime = timestamp
+
+ if not self.starttime:
+ self.starttime = timestamp
+ self.finishtime = timestamp
+
this_interval_s = None
for group in ['current', 'interval']:
if not m.group(group):
continue
category = m.group('category')
- if category not in stats_max:
- stats_max[category] = {}
words = m.group(group).split(' ')
+ stats = {}
for val, stat in zip(words[::2], words[1::2]):
- if '.' in val:
- val = float(val)
- else:
- val = int(val)
+ try:
+ if '.' in val:
+ stats[stat] = float(val)
+ else:
+ stats[stat] = int(val)
+ except ValueError as e:
+ raise ValueError(
+ 'Error parsing {} stat in "{}": {!r}'.format(
+ stat, line, e))
+ if 'user' in stats or 'sys' in stats:
+ stats['user+sys'] = stats.get('user', 0) + stats.get('sys', 0)
+ if 'tx' in stats or 'rx' in stats:
+ stats['tx+rx'] = stats.get('tx', 0) + stats.get('rx', 0)
+ for stat, val in stats.iteritems():
if group == 'interval':
if stat == 'seconds':
this_interval_s = val
continue
elif not (this_interval_s > 0):
- print("BUG? interval stat given with duration {!r}".
- format(this_interval_s),
- file=sys.stderr)
+ logger.error(
+ "BUG? interval stat given with duration {!r}".
+ format(this_interval_s))
continue
else:
stat = stat + '__rate'
val = val / this_interval_s
- if val > stats_max[category].get(stat, float('-Inf')):
- stats_max[category][stat] = val
- self.stats_max = stats_max
+ if stat in ['user+sys__rate', 'tx+rx__rate']:
+ task.series[category, stat].append(
+ (timestamp - task.starttime, val))
+ else:
+ if stat in ['rss']:
+ task.series[category, stat].append(
+ (timestamp - task.starttime, val))
+ self.task_stats[task_id][category][stat] = val
+ if val > self.stats_max[category][stat]:
+ self.stats_max[category][stat] = val
+ self.job_tot = collections.defaultdict(
+ functools.partial(collections.defaultdict, int))
+ for task_id, task_stat in self.task_stats.iteritems():
+ for category, stat_last in task_stat.iteritems():
+ for stat, val in stat_last.iteritems():
+ if stat in ['cpus', 'cache', 'swap', 'rss']:
+ # meaningless stats like 16 cpu cores x 5 tasks = 80
+ continue
+ self.job_tot[category][stat] += val
+
+ def long_label(self):
+ label = self.label
+ if self.finishtime:
+ label += ' -- elapsed time '
+ s = (self.finishtime - self.starttime).total_seconds()
+ if s > 86400:
+ label += '{}d'.format(int(s/86400))
+ if s > 3600:
+ label += '{}h'.format(int(s/3600) % 24)
+ if s > 60:
+ label += '{}m'.format(int(s/60) % 60)
+ label += '{}s'.format(int(s) % 60)
+ return label
- def report(self):
- return "\n".join(self._report_gen()) + "\n"
+ def text_report(self):
+ return "\n".join(itertools.chain(
+ self._text_report_gen(),
+ self._recommend_gen())) + "\n"
- def _report_gen(self):
- yield "\t".join(['category', 'metric', 'max', 'max_rate'])
- for category, stat_max in self.stats_max.iteritems():
- for stat, val in stat_max.iteritems():
+ def html_report(self):
+ return crunchstat_summary.chartjs.ChartJS(self.label, [self]).html()
+
+ def _text_report_gen(self):
+ yield "\t".join(['category', 'metric', 'task_max', 'task_max_rate', 'job_total'])
+ for category, stat_max in sorted(self.stats_max.iteritems()):
+ for stat, val in sorted(stat_max.iteritems()):
if stat.endswith('__rate'):
continue
- if stat+'__rate' in stat_max:
- max_rate = '{:.2f}'.format(stat_max[stat+'__rate'])
- else:
- max_rate = '-'
- if isinstance(val, float):
- val = '{:.2f}'.format(val)
- yield "\t".join([category, stat, str(val), max_rate])
-
- def _logdata(self):
- if self.args.log_file:
- if self.args.log_file.endswith('.gz'):
- return gzip.open(self.args.log_file)
- else:
- return open(self.args.log_file)
- elif self.args.job:
- arv = arvados.api('v1')
- job = arv.jobs().get(uuid=self.args.job).execute()
- if not job['log']:
- raise ValueError(
- "job {} has no log; live summary not implemented".format(
- self.args.job))
- collection = arvados.collection.CollectionReader(job['log'])
- filenames = [filename for filename in collection]
- if len(filenames) != 1:
- raise ValueError(
- "collection {} has {} files; need exactly one".format(
- job.log, len(filenames)))
- return collection.open(filenames[0])
+ max_rate = self._format(stat_max.get(stat+'__rate', '-'))
+ val = self._format(val)
+ tot = self._format(self.job_tot[category].get(stat, '-'))
+ yield "\t".join([category, stat, str(val), max_rate, tot])
+ for args in (
+ ('Max CPU time spent by a single task: {}s',
+ self.stats_max['cpu']['user+sys'],
+ None),
+ ('Max CPU usage in a single interval: {}%',
+ self.stats_max['cpu']['user+sys__rate'],
+ lambda x: x * 100),
+ ('Overall CPU usage: {}%',
+ self.job_tot['cpu']['user+sys'] /
+ self.job_tot['time']['elapsed'],
+ lambda x: x * 100),
+ ('Max memory used by a single task: {}GB',
+ self.stats_max['mem']['rss'],
+ lambda x: x / 1e9),
+ ('Max network traffic in a single task: {}GB',
+ self.stats_max['net:eth0']['tx+rx'],
+ lambda x: x / 1e9),
+ ('Max network speed in a single interval: {}MB/s',
+ self.stats_max['net:eth0']['tx+rx__rate'],
+ lambda x: x / 1e6)):
+ format_string, val, transform = args
+ if val == float('-Inf'):
+ continue
+ if transform:
+ val = transform(val)
+ yield "# "+format_string.format(self._format(val))
+
+ def _recommend_gen(self):
+ return itertools.chain(
+ self._recommend_cpu(),
+ self._recommend_ram())
+
+ def _recommend_cpu(self):
+ """Recommend asking for 4 cores if max CPU usage was 333%"""
+
+ cpu_max_rate = self.stats_max['cpu']['user+sys__rate']
+ if cpu_max_rate == float('-Inf'):
+ logger.warning('%s: no CPU usage data', self.label)
+ return
+ used_cores = int(math.ceil(cpu_max_rate))
+ asked_cores = self.existing_constraints.get('min_cores_per_node')
+ if asked_cores is None or used_cores < asked_cores:
+ yield (
+ '#!! {} max CPU usage was {}% -- '
+ 'try runtime_constraints "min_cores_per_node":{}'
+ ).format(
+ self.label,
+ int(math.ceil(cpu_max_rate*100)),
+ int(used_cores))
+
+ def _recommend_ram(self):
+ """Recommend asking for (2048*0.95) MiB RAM if max rss was 1248 MiB"""
+
+ used_ram = self.stats_max['mem']['rss']
+ if used_ram == float('-Inf'):
+ logger.warning('%s: no memory usage data', self.label)
+ return
+ used_ram = math.ceil(float(used_ram) / (1<<20))
+ asked_ram = self.existing_constraints.get('min_ram_mb_per_node')
+ if asked_ram is None or (
+ math.ceil((used_ram/AVAILABLE_RAM_RATIO)/(1<<10)) <
+ (asked_ram/AVAILABLE_RAM_RATIO)/(1<<10)):
+ yield (
+ '#!! {} max RSS was {} MiB -- '
+ 'try runtime_constraints "min_ram_mb_per_node":{}'
+ ).format(
+ self.label,
+ int(used_ram),
+ int(math.ceil((used_ram/AVAILABLE_RAM_RATIO)/(1<<10))*(1<<10)*AVAILABLE_RAM_RATIO))
+
+ def _format(self, val):
+ """Return a string representation of a stat.
+
+ {:.2f} for floats, default format for everything else."""
+ if isinstance(val, float):
+ return '{:.2f}'.format(val)
+ else:
+ return '{}'.format(val)
+
+
+class CollectionSummarizer(Summarizer):
+ def __init__(self, collection_id):
+ collection = arvados.collection.CollectionReader(collection_id)
+ filenames = [filename for filename in collection]
+ if len(filenames) != 1:
+ raise ValueError(
+ "collection {} has {} files; need exactly one".format(
+ collection_id, len(filenames)))
+ super(CollectionSummarizer, self).__init__(
+ collection.open(filenames[0]))
+ self.label = collection_id
+
+
+class JobSummarizer(CollectionSummarizer):
+ def __init__(self, job):
+ arv = arvados.api('v1')
+ if isinstance(job, str):
+ self.job = arv.jobs().get(uuid=job).execute()
else:
- return sys.stdin
+ self.job = job
+ self.label = self.job['uuid']
+ self.existing_constraints = self.job.get('runtime_constraints', {})
+ if not self.job['log']:
+ raise ValueError(
+ "job {} has no log; live summary not implemented".format(
+ self.job['uuid']))
+ super(JobSummarizer, self).__init__(self.job['log'])
+ self.label = self.job['uuid']
+
+
+class PipelineSummarizer():
+ def __init__(self, pipeline_instance_uuid):
+ arv = arvados.api('v1', model=OrderedJsonModel())
+ instance = arv.pipeline_instances().get(
+ uuid=pipeline_instance_uuid).execute()
+ self.summarizers = collections.OrderedDict()
+ for cname, component in instance['components'].iteritems():
+ if 'job' not in component:
+ logger.warning(
+ "%s: skipping component with no job assigned", cname)
+ elif component['job'].get('log') is None:
+ logger.warning(
+ "%s: skipping job %s with no log available",
+ cname, component['job'].get('uuid'))
+ else:
+ logger.info(
+ "%s: logdata %s", cname, component['job']['log'])
+ summarizer = JobSummarizer(component['job'])
+ summarizer.label = cname
+ self.summarizers[cname] = summarizer
+ self.label = pipeline_instance_uuid
+
+ def run(self):
+ for summarizer in self.summarizers.itervalues():
+ summarizer.run()
+
+ def text_report(self):
+ txt = ''
+ for cname, summarizer in self.summarizers.iteritems():
+ txt += '### Summary for {} ({})\n'.format(
+ cname, summarizer.job['uuid'])
+ txt += summarizer.text_report()
+ txt += '\n'
+ return txt
+
+ def html_report(self):
+ return crunchstat_summary.chartjs.ChartJS(
+ self.label, self.summarizers.itervalues()).html()