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from collections import defaultdict
from itertools import chain
from operator import itemgetter
from django.core.serializers.json import DjangoJSONEncoder
from django.db import connection
from django.db.models import Count, Max, F
from django.contrib.auth.models import User
from main.models import Package, PackageFile, Arch, Repo
from main.utils import (cache_function, database_vendor,
groupby_preserve_order, PackageStandin)
from .models import (PackageGroup, PackageRelation,
License, Depend, Conflict, Provision, Replacement,
SignoffSpecification, Signoff, DEFAULT_SIGNOFF_SPEC)
@cache_function(127)
def get_group_info(include_arches=None):
raw_groups = PackageGroup.objects.values_list(
'name', 'pkg__arch__name').order_by('name').annotate(
cnt=Count('pkg'), last_update=Max('pkg__last_update'))
# now for post_processing. we need to seperate things out and add
# the count in for 'any' to all of the other architectures.
group_mapping = {}
for grp in raw_groups:
arch_groups = group_mapping.setdefault(grp[1], {})
arch_groups[grp[0]] = {'name': grp[0], 'arch': grp[1],
'count': grp[2], 'last_update': grp[3]}
# we want to promote the count of 'any' packages in groups to the
# other architectures, and also add any 'any'-only groups
if 'any' in group_mapping:
any_groups = group_mapping['any']
del group_mapping['any']
for arch, arch_groups in group_mapping.iteritems():
for grp in any_groups.itervalues():
if grp['name'] in arch_groups:
found = arch_groups[grp['name']]
found['count'] += grp['count']
if grp['last_update'] > found['last_update']:
found['last_update'] = grp['last_update']
else:
new_g = grp.copy()
# override the arch to not be 'any'
new_g['arch'] = arch
arch_groups[grp['name']] = new_g
# now transform it back into a sorted list, including only the specified
# architectures if we got a list
groups = []
for key, val in group_mapping.iteritems():
if not include_arches or key in include_arches:
groups.extend(val.itervalues())
return sorted(groups, key=itemgetter('name', 'arch'))
def get_split_packages_info():
'''Return info on split packages that do not have an actual package name
matching the split pkgbase.'''
pkgnames = Package.objects.values('pkgname')
split_pkgs = Package.objects.exclude(pkgname=F('pkgbase')).exclude(
pkgbase__in=pkgnames).values('pkgbase', 'repo', 'arch').annotate(
last_update=Max('last_update'))
all_arches = Arch.objects.in_bulk(set(s['arch'] for s in split_pkgs))
all_repos = Repo.objects.in_bulk(set(s['repo'] for s in split_pkgs))
for split in split_pkgs:
split['arch'] = all_arches[split['arch']]
split['repo'] = all_repos[split['repo']]
return split_pkgs
class Difference(object):
def __init__(self, pkgname, repo, pkg_a, pkg_b):
self.pkgname = pkgname
self.repo = repo
self.pkg_a = pkg_a
self.pkg_b = pkg_b
def classes(self):
'''A list of CSS classes that should be applied to this row in any
generated HTML. Useful for sorting, filtering, etc. Contains whether
this difference is in both architectures or the sole architecture it
belongs to, as well as the repo name.'''
css_classes = [self.repo.name.lower()]
if self.pkg_a and self.pkg_b:
css_classes.append('both')
elif self.pkg_a:
css_classes.append(self.pkg_a.arch.name)
elif self.pkg_b:
css_classes.append(self.pkg_b.arch.name)
return ' '.join(css_classes)
def __cmp__(self, other):
if isinstance(other, Difference):
return cmp(self.__dict__, other.__dict__)
return False
@cache_function(127)
def get_differences_info(arch_a, arch_b):
# This is a monster. Join packages against itself, looking for packages in
# our non-'any' architectures only, and not having a corresponding package
# entry in the other table (or having one with a different pkgver). We will
# then go and fetch all of these packages from the database and display
# them later using normal ORM models.
sql = """
SELECT p.id, q.id
FROM packages p
LEFT JOIN packages q
ON (
p.pkgname = q.pkgname
AND p.repo_id = q.repo_id
AND p.arch_id != q.arch_id
AND p.id != q.id
)
WHERE p.arch_id IN (%s, %s)
AND (
q.id IS NULL
OR p.pkgver != q.pkgver
OR p.pkgrel != q.pkgrel
OR p.epoch != q.epoch
)
"""
cursor = connection.cursor()
cursor.execute(sql, [arch_a.id, arch_b.id])
results = cursor.fetchall()
# column A will always have a value, column B might be NULL
to_fetch = set(row[0] for row in results)
# fetch all of the necessary packages
pkgs = Package.objects.normal().in_bulk(to_fetch)
# now build a list of tuples containing differences
differences = []
for row in results:
pkg_a = pkgs.get(row[0])
pkg_b = pkgs.get(row[1])
# We want arch_a to always appear first
# pkg_a should never be None
if pkg_a.arch == arch_a:
item = Difference(pkg_a.pkgname, pkg_a.repo, pkg_a, pkg_b)
else:
# pkg_b can be None in this case, so be careful
name = pkg_a.pkgname if pkg_a else pkg_b.pkgname
repo = pkg_a.repo if pkg_a else pkg_b.repo
item = Difference(name, repo, pkg_b, pkg_a)
if item not in differences:
differences.append(item)
# now sort our list by repository, package name
differences.sort(key=lambda a: (a.repo.name, a.pkgname))
return differences
def multilib_differences():
# Query for checking multilib out of date-ness
if database_vendor(Package) == 'sqlite':
pkgname_sql = """
CASE WHEN ml.pkgname LIKE %s
THEN SUBSTR(ml.pkgname, 7)
WHEN ml.pkgname LIKE %s
THEN SUBSTR(ml.pkgname, 1, LENGTH(ml.pkgname) - 9)
ELSE
ml.pkgname
END
"""
else:
pkgname_sql = """
CASE WHEN ml.pkgname LIKE %s
THEN SUBSTRING(ml.pkgname, 7)
WHEN ml.pkgname LIKE %s
THEN SUBSTRING(ml.pkgname FROM 1 FOR CHAR_LENGTH(ml.pkgname) - 9)
ELSE
ml.pkgname
END
"""
sql = """
SELECT ml.id, reg.id
FROM packages ml
JOIN packages reg
ON (
reg.pkgname = (""" + pkgname_sql + """)
AND reg.pkgver != ml.pkgver
)
JOIN repos r ON reg.repo_id = r.id
WHERE ml.repo_id = %s
AND r.testing = %s
AND r.staging = %s
AND reg.arch_id = %s
ORDER BY ml.last_update
"""
multilib = Repo.objects.get(name__iexact='multilib')
i686 = Arch.objects.get(name='i686')
params = ['lib32-%', '%-multilib', multilib.id, False, False, i686.id]
cursor = connection.cursor()
cursor.execute(sql, params)
results = cursor.fetchall()
# fetch all of the necessary packages
to_fetch = set(chain.from_iterable(results))
pkgs = Package.objects.normal().in_bulk(to_fetch)
return [(pkgs[ml], pkgs[reg]) for ml, reg in results]
def get_wrong_permissions():
sql = """
SELECT DISTINCT id
FROM (
SELECT pr.id, p.repo_id, pr.user_id
FROM packages p
JOIN packages_packagerelation pr ON p.pkgbase = pr.pkgbase
WHERE pr.type = %s
) pkgs
WHERE pkgs.repo_id NOT IN (
SELECT repo_id FROM user_profiles_allowed_repos ar
INNER JOIN user_profiles up ON ar.userprofile_id = up.id
WHERE up.user_id = pkgs.user_id
)
"""
cursor = connection.cursor()
cursor.execute(sql, [PackageRelation.MAINTAINER])
to_fetch = [row[0] for row in cursor.fetchall()]
relations = PackageRelation.objects.select_related('user').filter(
id__in=to_fetch)
return relations
def attach_maintainers(packages):
'''Given a queryset or something resembling it of package objects, find all
the maintainers and attach them to the packages to prevent N+1 query
cascading.'''
packages = list(packages)
pkgbases = set(p.pkgbase for p in packages)
rels = PackageRelation.objects.filter(type=PackageRelation.MAINTAINER,
pkgbase__in=pkgbases).values_list(
'pkgbase', 'user_id').order_by().distinct()
# get all the user objects we will need
user_ids = set(rel[1] for rel in rels)
users = User.objects.in_bulk(user_ids)
# now build a pkgbase -> [maintainers...] map
maintainers = defaultdict(list)
for rel in rels:
maintainers[rel[0]].append(users[rel[1]])
annotated = []
# and finally, attach the maintainer lists on the original packages
for package in packages:
package.maintainers = maintainers[package.pkgbase]
annotated.append(package)
return annotated
def approved_by_signoffs(signoffs, spec):
if signoffs:
good_signoffs = sum(1 for s in signoffs if not s.revoked)
return good_signoffs >= spec.required
return False
class PackageSignoffGroup(object):
'''Encompasses all packages in testing with the same pkgbase.'''
def __init__(self, packages):
if len(packages) == 0:
raise Exception
self.packages = packages
self.user = None
self.target_repo = None
self.signoffs = set()
self.specification = DEFAULT_SIGNOFF_SPEC
self.default_spec = True
first = packages[0]
self.pkgbase = first.pkgbase
self.arch = first.arch
self.repo = first.repo
self.version = ''
self.last_update = first.last_update
self.packager = first.packager
self.maintainers = first.maintainers
version = first.full_version
if all(version == pkg.full_version for pkg in packages):
self.version = version
@property
def package(self):
'''Try and return a relevant single package object representing this
group. Start by seeing if there is only one package, then look for the
matching package by name, finally falling back to a standin package
object.'''
if len(self.packages) == 1:
return self.packages[0]
same_pkgs = [p for p in self.packages if p.pkgname == p.pkgbase]
if same_pkgs:
return same_pkgs[0]
return PackageStandin(self.packages[0])
def find_signoffs(self, all_signoffs):
'''Look through a list of Signoff objects for ones matching this
particular group and store them on the object.'''
for s in all_signoffs:
if s.pkgbase != self.pkgbase:
continue
if self.version and not s.full_version == self.version:
continue
if s.arch_id == self.arch.id and s.repo_id == self.repo.id:
self.signoffs.add(s)
def find_specification(self, specifications):
for spec in specifications:
if spec.pkgbase != self.pkgbase:
continue
if self.version and not spec.full_version == self.version:
continue
if spec.arch_id == self.arch.id and spec.repo_id == self.repo.id:
self.specification = spec
self.default_spec = False
return
def approved(self):
return approved_by_signoffs(self.signoffs, self.specification)
@property
def completed(self):
return sum(1 for s in self.signoffs if not s.revoked)
@property
def required(self):
return self.specification.required
def user_signed_off(self, user=None):
'''Did a given user signoff on this package? user can be passed as an
argument, or attached to the group object itself so this can be called
from a template.'''
if user is None:
user = self.user
return user in (s.user for s in self.signoffs if not s.revoked)
def __unicode__(self):
return u'%s-%s (%s): %d' % (
self.pkgbase, self.version, self.arch, len(self.signoffs))
_SQL_SPEC_OR_SIGNOFF = """
SELECT DISTINCT s.id
FROM %s s
JOIN packages p ON (
s.pkgbase = p.pkgbase
AND s.pkgver = p.pkgver
AND s.pkgrel = p.pkgrel
AND s.epoch = p.epoch
AND s.arch_id = p.arch_id
AND s.repo_id = p.repo_id
)
AND p.repo_id IN (%s)
"""
def get_current_signoffs(repos):
'''Returns a mapping of pkgbase -> signoff objects for the given repos.'''
cursor = connection.cursor()
# query pre-process- fill in table name and placeholders for IN
sql = _SQL_SPEC_OR_SIGNOFF % ('packages_signoff',
','.join(['%s' for r in repos]))
cursor.execute(sql, [r.pk for r in repos])
results = cursor.fetchall()
# fetch all of the returned signoffs by ID
to_fetch = [row[0] for row in results]
signoffs = Signoff.objects.select_related('user').in_bulk(to_fetch)
return signoffs.values()
def get_current_specifications(repos):
'''Returns a mapping of pkgbase -> signoff specification objects for the
given repos.'''
cursor = connection.cursor()
sql = _SQL_SPEC_OR_SIGNOFF % ('packages_signoffspecification',
','.join(['%s' for r in repos]))
cursor.execute(sql, [r.pk for r in repos])
results = cursor.fetchall()
to_fetch = [row[0] for row in results]
return SignoffSpecification.objects.in_bulk(to_fetch).values()
def get_target_repo_map(repos):
sql = """
SELECT DISTINCT p1.pkgbase, r.name
FROM packages p1
JOIN repos r ON p1.repo_id = r.id
JOIN packages p2 ON p1.pkgbase = p2.pkgbase
WHERE r.staging = %s
AND r.testing = %s
AND p2.repo_id IN (
"""
sql += ','.join(['%s' for _ in repos])
sql += ")"
params = [False, False]
params.extend(r.pk for r in repos)
cursor = connection.cursor()
cursor.execute(sql, params)
return dict(cursor.fetchall())
def get_signoff_groups(repos=None, user=None):
if repos is None:
repos = Repo.objects.filter(testing=True)
repo_ids = [r.pk for r in repos]
test_pkgs = Package.objects.select_related(
'arch', 'repo', 'packager').filter(repo__in=repo_ids)
packages = test_pkgs.order_by('pkgname')
packages = attach_maintainers(packages)
# Filter by user if asked to do so
if user is not None:
packages = [p for p in packages if user == p.packager
or user in p.maintainers]
# Collect all pkgbase values in testing repos
pkgtorepo = get_target_repo_map(repos)
# Collect all possible signoffs and specifications for these packages
signoffs = get_current_signoffs(repos)
specs = get_current_specifications(repos)
same_pkgbase_key = lambda x: (x.repo.name, x.arch.name, x.pkgbase)
grouped = groupby_preserve_order(packages, same_pkgbase_key)
signoff_groups = []
for group in grouped:
signoff_group = PackageSignoffGroup(group)
signoff_group.target_repo = pkgtorepo.get(signoff_group.pkgbase,
"Unknown")
signoff_group.find_signoffs(signoffs)
signoff_group.find_specification(specs)
signoff_groups.append(signoff_group)
return signoff_groups
class PackageJSONEncoder(DjangoJSONEncoder):
pkg_attributes = [ 'pkgname', 'pkgbase', 'repo', 'arch', 'pkgver',
'pkgrel', 'epoch', 'pkgdesc', 'url', 'filename', 'compressed_size',
'installed_size', 'build_date', 'last_update', 'flag_date',
'maintainers', 'packager' ]
pkg_list_attributes = [ 'groups', 'licenses', 'conflicts',
'provides', 'replaces', 'depends' ]
def default(self, obj):
if hasattr(obj, '__iter__'):
# mainly for queryset serialization
return list(obj)
if isinstance(obj, Package):
data = dict((attr, getattr(obj, attr))
for attr in self.pkg_attributes)
for attr in self.pkg_list_attributes:
data[attr] = getattr(obj, attr).all()
return data
if isinstance(obj, PackageFile):
filename = obj.filename or ''
return obj.directory + filename
if isinstance(obj, (Repo, Arch)):
return obj.name.lower()
if isinstance(obj, (PackageGroup, License)):
return obj.name
if isinstance(obj, (Depend, Conflict, Provision, Replacement)):
return unicode(obj)
elif isinstance(obj, User):
return obj.username
return super(PackageJSONEncoder, self).default(obj)
# vim: set ts=4 sw=4 et:
|