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from datetime import timedelta
from django.db import connection
from django.db.models import Count, Max, Min
from django.utils.dateparse import parse_datetime
from django.utils.timezone import now
from django_countries.fields import Country
from main.utils import cache_function, database_vendor
from .models import MirrorLog, MirrorUrl
DEFAULT_CUTOFF = timedelta(hours=24)
def dictfetchall(cursor):
"Returns all rows from a cursor as a dict."
desc = cursor.description
return [
dict(zip([col[0] for col in desc], row))
for row in cursor.fetchall()
]
@cache_function(178)
def status_data(cutoff_time, mirror_id=None):
if mirror_id is not None:
params = [cutoff_time, mirror_id]
mirror_where = 'AND u.mirror_id = %s'
else:
params = [cutoff_time]
mirror_where = ''
vendor = database_vendor(MirrorUrl)
if vendor == 'sqlite':
sql = """
SELECT l.url_id, u.mirror_id,
COUNT(l.id) AS check_count,
COUNT(l.duration) AS success_count,
MAX(l.last_sync) AS last_sync,
MAX(l.check_time) AS last_check,
AVG(l.duration) AS duration_avg,
0.0 AS duration_stddev,
AVG(STRFTIME('%%s', check_time) - STRFTIME('%%s', last_sync)) AS delay
FROM mirrors_mirrorlog l
JOIN mirrors_mirrorurl u ON u.id = l.url_id
WHERE l.check_time >= %s
""" + mirror_where + """
GROUP BY l.url_id, u.mirror_id
"""
else:
sql = """
SELECT l.url_id, u.mirror_id,
COUNT(l.id) AS check_count,
COUNT(l.duration) AS success_count,
MAX(l.last_sync) AS last_sync,
MAX(l.check_time) AS last_check,
AVG(l.duration) AS duration_avg,
STDDEV(l.duration) AS duration_stddev,
AVG(check_time - last_sync) AS delay
FROM mirrors_mirrorlog l
JOIN mirrors_mirrorurl u ON u.id = l.url_id
WHERE l.check_time >= %s
""" + mirror_where + """
GROUP BY l.url_id, u.mirror_id
"""
cursor = connection.cursor()
cursor.execute(sql, params)
url_data = dictfetchall(cursor)
# sqlite loves to return less than ideal types
if vendor == 'sqlite':
for item in url_data:
if item['delay'] is not None:
item['delay'] = timedelta(seconds=item['delay'])
if item['last_sync'] is not None:
item['last_sync'] = parse_datetime(item['last_sync'])
item['last_check'] = parse_datetime(item['last_check'])
return {item['url_id']: item for item in url_data}
def annotate_url(url, url_data):
'''Given a MirrorURL object, add a few more attributes to it regarding
status, including completion_pct, delay, and score.'''
known_attrs = (
('success_count', 0),
('check_count', 0),
('completion_pct', None),
('last_check', None),
('last_sync', None),
('delay', None),
('score', None),
)
for k, v in known_attrs:
setattr(url, k, v)
for k, v in url_data.items():
if k not in ('url_id', 'mirror_id'):
setattr(url, k, v)
if url.check_count > 0:
url.completion_pct = float(url.success_count) / url.check_count
if url.delay is not None:
hours = url.delay.days * 24.0 + url.delay.seconds / 3600.0
if url.completion_pct > 0:
divisor = url.completion_pct
else:
# arbitrary small value
divisor = 0.005
stddev = url.duration_stddev or 0.0
url.score = (hours + url.duration_avg + stddev) / divisor
def get_mirror_statuses(cutoff=DEFAULT_CUTOFF, mirror_id=None):
cutoff_time = now() - cutoff
# TODO: this prevents grabbing data points from any mirror that was active,
# receiving checks, and then marked private. we can probably be smarter and
# filter the data later?
valid_urls = MirrorUrl.objects.filter(active=True,
mirror__active=True, mirror__public=True,
logs__check_time__gte=cutoff_time).distinct()
if mirror_id:
valid_urls = valid_urls.filter(mirror_id=mirror_id)
url_data = status_data(cutoff_time, mirror_id)
urls = MirrorUrl.objects.select_related('mirror', 'protocol').filter(
id__in=valid_urls).order_by('mirror__id', 'url')
if urls:
for url in urls:
annotate_url(url, url_data.get(url.id, {}))
last_check = max([u.last_check for u in urls if u.last_check])
num_checks = max([u.check_count for u in urls])
check_info = MirrorLog.objects.filter(check_time__gte=cutoff_time)
if mirror_id:
check_info = check_info.filter(url__mirror_id=mirror_id)
check_info = check_info.aggregate(
mn=Min('check_time'), mx=Max('check_time'))
if num_checks > 1:
check_frequency = (check_info['mx'] - check_info['mn']) \
/ (num_checks - 1)
else:
check_frequency = None
else:
last_check = None
num_checks = 0
check_frequency = None
return {
'cutoff': cutoff,
'last_check': last_check,
'num_checks': num_checks,
'check_frequency': check_frequency,
'urls': urls,
}
def get_mirror_errors(cutoff=DEFAULT_CUTOFF, mirror_id=None):
cutoff_time = now() - cutoff
errors = MirrorLog.objects.filter(
is_success=False, check_time__gte=cutoff_time, url__active=True,
url__mirror__active=True, url__mirror__public=True).values(
'url__url', 'url__country', 'url__protocol__protocol',
'url__mirror__tier', 'error').annotate(
error_count=Count('error'), last_occurred=Max('check_time')
).order_by('-last_occurred', '-error_count')
if mirror_id:
errors = errors.filter(url__mirror_id=mirror_id)
errors = list(errors)
for err in errors:
err['country'] = Country(err['url__country'])
return errors
@cache_function(295)
def get_mirror_url_for_download(cutoff=DEFAULT_CUTOFF):
'''Find a good mirror URL to use for package downloads. If we have mirror
status data available, it is used to determine a good choice by looking at
the last batch of status rows.'''
cutoff_time = now() - cutoff
status_data = MirrorLog.objects.filter(
check_time__gte=cutoff_time).aggregate(
Max('check_time'), Max('last_sync'))
if status_data['check_time__max'] is not None:
min_check_time = status_data['check_time__max'] - timedelta(minutes=5)
min_sync_time = status_data['last_sync__max'] - timedelta(minutes=20)
best_logs = MirrorLog.objects.filter(is_success=True,
check_time__gte=min_check_time, last_sync__gte=min_sync_time,
url__active=True,
url__mirror__public=True, url__mirror__active=True,
url__protocol__default=True).order_by(
'duration')[:1]
if best_logs:
return MirrorUrl.objects.get(id=best_logs[0].url_id)
mirror_urls = MirrorUrl.objects.filter(active=True,
mirror__public=True, mirror__active=True, protocol__default=True)
# look first for a country-agnostic URL, then fall back to any HTTP URL
filtered_urls = mirror_urls.filter(country='')[:1]
if not filtered_urls:
filtered_urls = mirror_urls[:1]
if not filtered_urls:
return None
return filtered_urls[0]
# vim: set ts=4 sw=4 et:
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