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britney2-ubuntu/britney2/utils.py

895 lines
35 KiB

# -*- coding: utf-8 -*-
# Refactored parts from britney.py, which is/was:
# Copyright (C) 2001-2008 Anthony Towns <ajt@debian.org>
# Andreas Barth <aba@debian.org>
# Fabio Tranchitella <kobold@debian.org>
# Copyright (C) 2010-2012 Adam D. Barratt <adsb@debian.org>
# Copyright (C) 2012 Niels Thykier <niels@thykier.net>
#
# New portions
# Copyright (C) 2013 Adam D. Barratt <adsb@debian.org>
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
import apt_pkg
import errno
import logging
import os
import sys
import time
from collections import defaultdict
from datetime import datetime
from functools import partial
from itertools import filterfalse, chain
import yaml
from britney2 import SourcePackage
from britney2.excusedeps import DependencySpec, ImpossibleDependencyState
from britney2.policies import PolicyVerdict
class MigrationConstraintException(Exception):
pass
def ifilter_except(container, iterable=None):
"""Filter out elements in container
If given an iterable it returns a filtered iterator, otherwise it
returns a function to generate filtered iterators. The latter is
useful if the same filter has to be (re-)used on multiple
iterators that are not known on beforehand.
"""
if iterable is not None:
return filterfalse(container.__contains__, iterable)
return partial(filterfalse, container.__contains__)
def ifilter_only(container, iterable=None):
"""Filter out elements in which are not in container
If given an iterable it returns a filtered iterator, otherwise it
returns a function to generate filtered iterators. The latter is
useful if the same filter has to be (re-)used on multiple
iterators that are not known on beforehand.
"""
if iterable is not None:
return filter(container.__contains__, iterable)
return partial(filter, container.__contains__)
# iter_except is from the "itertools" recipe
def iter_except(func, exception, first=None): # pragma: no cover - itertools recipe function
""" Call a function repeatedly until an exception is raised.
Converts a call-until-exception interface to an iterator interface.
Like __builtin__.iter(func, sentinel) but uses an exception instead
of a sentinel to end the loop.
Examples:
bsddbiter = iter_except(db.next, bsddb.error, db.first)
heapiter = iter_except(functools.partial(heappop, h), IndexError)
dictiter = iter_except(d.popitem, KeyError)
dequeiter = iter_except(d.popleft, IndexError)
queueiter = iter_except(q.get_nowait, Queue.Empty)
setiter = iter_except(s.pop, KeyError)
"""
try:
if first is not None:
yield first()
while 1:
yield func()
except exception:
pass
def log_and_format_old_libraries(logger, libs):
"""Format and log old libraries in a table (no header)"""
libraries = {}
for i in libs:
pkg = i.package
if pkg in libraries:
libraries[pkg].append(i.architecture)
else:
libraries[pkg] = [i.architecture]
for lib in sorted(libraries):
logger.info(" %s: %s", lib, " ".join(libraries[lib]))
def compute_reverse_tree(pkg_universe, affected):
"""Calculate the full dependency tree for a set of packages
This method returns the full dependency tree for a given set of
packages. The first argument is an instance of the BinaryPackageUniverse
and the second argument are a set of BinaryPackageId.
The set of affected packages will be updated in place and must
therefore be mutable.
"""
remain = list(affected)
while remain:
pkg_id = remain.pop()
new_pkg_ids = pkg_universe.reverse_dependencies_of(pkg_id) - affected
affected.update(new_pkg_ids)
remain.extend(new_pkg_ids)
return None
def add_transitive_dependencies_flatten(pkg_universe, initial_set):
"""Find and include all transitive dependencies
This method updates the initial_set parameter to include all transitive
dependencies. The first argument is an instance of the BinaryPackageUniverse
and the second argument are a set of BinaryPackageId.
The set of initial packages will be updated in place and must
therefore be mutable.
"""
remain = list(initial_set)
while remain:
pkg_id = remain.pop()
new_pkg_ids = [x for x in chain.from_iterable(pkg_universe.dependencies_of(pkg_id)) if x not in initial_set]
initial_set.update(new_pkg_ids)
remain.extend(new_pkg_ids)
return None
def write_nuninst(filename, nuninst):
"""Write the non-installable report
Write the non-installable report derived from "nuninst" to the
file denoted by "filename".
"""
with open(filename, 'w', encoding='utf-8') as f:
# Having two fields with (almost) identical dates seems a bit
# redundant.
f.write("Built on: " + time.strftime("%Y.%m.%d %H:%M:%S %z", time.gmtime(time.time())) + "\n")
f.write("Last update: " + time.strftime("%Y.%m.%d %H:%M:%S %z", time.gmtime(time.time())) + "\n\n")
for k in nuninst:
f.write("%s: %s\n" % (k, " ".join(nuninst[k])))
def read_nuninst(filename, architectures):
"""Read the non-installable report
Read the non-installable report from the file denoted by
"filename" and return it. Only architectures in "architectures"
will be included in the report.
"""
nuninst = {}
with open(filename, encoding='ascii') as f:
for r in f:
if ":" not in r:
continue
arch, packages = r.strip().split(":", 1)
if arch.split("+", 1)[0] in architectures:
nuninst[arch] = set(packages.split())
return nuninst
def newly_uninst(nuold, nunew):
"""Return a nuninst statstic with only new uninstallable packages
This method subtracts the uninstallable packages of the statistic
"nunew" from the statistic "nuold".
It returns a dictionary with the architectures as keys and the list
of uninstallable packages as values. If there are no regressions
on a given architecture, then the architecture will be omitted in
the result. Accordingly, if none of the architectures have
regressions an empty directory is returned.
"""
res = {}
for arch in ifilter_only(nunew, nuold):
arch_nuninst = [x for x in nunew[arch] if x not in nuold[arch]]
# Leave res empty if there are no newly uninst packages
if arch_nuninst:
res[arch] = arch_nuninst
return res
def format_and_log_uninst(logger, architectures, nuninst, *, loglevel=logging.INFO):
"""Emits the uninstallable packages to the log
An example of the output string is:
* i386: broken-pkg1, broken-pkg2
Note that if there is no uninstallable packages, then nothing is emitted.
"""
for arch in architectures:
if arch in nuninst and nuninst[arch]:
msg = " * %s: %s" % (arch, ", ".join(sorted(nuninst[arch])))
logger.log(loglevel, msg)
def write_heidi(filename, target_suite, *, outofsync_arches=frozenset(), sorted=sorted):
"""Write the output HeidiResult
This method write the output for Heidi, which contains all the
binary packages and the source packages in the form:
<pkg-name> <pkg-version> <pkg-architecture> <pkg-section>
<src-name> <src-version> source <src-section>
The file is written as "filename" using the sources and packages
from the "target_suite" parameter.
outofsync_arches: If given, it is a set of architectures marked
as "out of sync". The output file may exclude some out of date
arch:all packages for those architectures to reduce the noise.
The "X=X" parameters are optimizations to avoid "load global" in
the loops.
"""
sources_t = target_suite.sources
packages_t = target_suite.binaries
with open(filename, 'w', encoding='ascii') as f:
# write binary packages
for arch in sorted(packages_t):
binaries = packages_t[arch]
for pkg_name in sorted(binaries):
pkg = binaries[pkg_name]
pkgv = pkg.version
pkgarch = pkg.architecture or 'all'
pkgsec = pkg.section or 'faux'
if pkgsec == 'faux' or pkgsec.endswith('/faux'):
# Faux package; not really a part of testing
continue
if pkg.source_version and pkgarch == 'all' and \
pkg.source_version != sources_t[pkg.source].version and \
arch in outofsync_arches:
# when architectures are marked as "outofsync", their binary
# versions may be lower than those of the associated
# source package in testing. the binary package list for
# such architectures will include arch:all packages
# matching those older versions, but we only want the
# newer arch:all in testing
continue
f.write('%s %s %s %s\n' % (pkg_name, pkgv, pkgarch, pkgsec))
# write sources
for src_name in sorted(sources_t):
src = sources_t[src_name]
srcv = src.version
srcsec = src.section or 'unknown'
if srcsec == 'faux' or srcsec.endswith('/faux'):
# Faux package; not really a part of testing
continue
f.write('%s %s source %s\n' % (src_name, srcv, srcsec))
def write_heidi_delta(filename, all_selected):
"""Write the output delta
This method writes the packages to be upgraded, in the form:
<src-name> <src-version>
or (if the source is to be removed):
-<src-name> <src-version>
The order corresponds to that shown in update_output.
"""
with open(filename, "w", encoding='ascii') as fd:
fd.write("#HeidiDelta\n")
for item in all_selected:
prefix = ""
if item.is_removal:
prefix = "-"
if item.architecture == 'source':
fd.write('%s%s %s\n' % (prefix, item.package, item.version))
else:
fd.write('%s%s %s %s\n' % (prefix, item.package,
item.version, item.architecture))
def write_excuses(excuselist, dest_file, output_format="yaml"):
"""Write the excuses to dest_file
Writes a list of excuses in a specified output_format to the
path denoted by dest_file. The output_format can either be "yaml"
or "legacy-html".
"""
if output_format == "yaml":
with open(dest_file, 'w', encoding='utf-8') as f:
edatalist = [e.excusedata() for e in excuselist]
excusesdata = {
'sources': edatalist,
'generated-date': datetime.utcnow(),
}
f.write(yaml.dump(excusesdata, default_flow_style=False, allow_unicode=True))
elif output_format == "legacy-html":
with open(dest_file, 'w', encoding='utf-8') as f:
f.write("<!DOCTYPE HTML PUBLIC \"-//W3C//DTD HTML 4.01//EN\" \"http://www.w3.org/TR/REC-html40/strict.dtd\">\n")
f.write("<html><head><title>excuses...</title>")
f.write("<meta http-equiv=\"Content-Type\" content=\"text/html;charset=utf-8\"></head><body>\n")
f.write("<p>Generated: " + time.strftime("%Y.%m.%d %H:%M:%S %z", time.gmtime(time.time())) + "</p>\n")
f.write("<ul>\n")
for e in excuselist:
f.write("<li>%s" % e.html())
f.write("</ul></body></html>\n")
else: # pragma: no cover
raise ValueError('Output format must be either "yaml or "legacy-html"')
def old_libraries(mi_factory, suite_info, outofsync_arches=frozenset()):
"""Detect old libraries left in the target suite for smooth transitions
This method detects old libraries which are in the target suite but no
longer built from the source package: they are still there because
other packages still depend on them, but they should be removed as
soon as possible.
For "outofsync" architectures, outdated binaries are allowed to be in
the target suite, so they are only added to the removal list if they
are no longer in the (primary) source suite.
"""
sources_t = suite_info.target_suite.sources
binaries_t = suite_info.target_suite.binaries
binaries_s = suite_info.primary_source_suite.binaries
removals = []
for arch in binaries_t:
for pkg_name in binaries_t[arch]:
pkg = binaries_t[arch][pkg_name]
if sources_t[pkg.source].version != pkg.source_version and \
(arch not in outofsync_arches or pkg_name not in binaries_s[arch]):
removals.append(mi_factory.generate_removal_for_cruft_item(pkg.pkg_id))
return removals
def is_nuninst_asgood_generous(constraints, allow_uninst, architectures, old, new, break_arches=frozenset()):
"""Compares the nuninst counters and constraints to see if they improved
Given a list of architectures, the previous and the current nuninst
counters, this function determines if the current nuninst counter
is better than the previous one. Optionally it also accepts a set
of "break_arches", the nuninst counter for any architecture listed
in this set are completely ignored.
If the nuninst counters are equal or better, then the constraints
are checked for regressions (ignoring break_arches).
Returns True if the new nuninst counter is better than the
previous and there are no constraint regressions (ignoring Break-archs).
Returns False otherwise.
"""
diff = 0
for arch in architectures:
if arch in break_arches:
continue
diff = diff + \
(len(new[arch] - allow_uninst[arch])
- len(old[arch] - allow_uninst[arch]))
if diff > 0:
return False
must_be_installable = constraints['keep-installable']
for arch in architectures:
if arch in break_arches:
continue
regression = new[arch] - old[arch]
if not regression.isdisjoint(must_be_installable):
return False
return True
def clone_nuninst(nuninst, *, packages_s=None, architectures=None):
"""Completely or Selectively deep clone nuninst
Given nuninst table, the package table for a given suite and
a list of architectures, this function will clone the nuninst
table. Only the listed architectures will be deep cloned -
the rest will only be shallow cloned. When packages_s is given,
packages not listed in packages_s will be pruned from the clone
(if packages_s is omitted, the per architecture nuninst is cloned
as-is)
"""
clone = nuninst.copy()
if architectures is None:
return clone
if packages_s is not None:
for arch in architectures:
clone[arch] = set(x for x in nuninst[arch] if x in packages_s[arch])
clone[arch + "+all"] = set(x for x in nuninst[arch + "+all"] if x in packages_s[arch])
else:
for arch in architectures:
clone[arch] = set(nuninst[arch])
clone[arch + "+all"] = set(nuninst[arch + "+all"])
return clone
def test_installability(target_suite, pkg_name, pkg_id, broken, nuninst_arch):
"""Test for installability of a package on an architecture
(pkg_name, pkg_version, pkg_arch) is the package to check.
broken is the set of broken packages. If p changes
installability (e.g. goes from uninstallable to installable),
broken will be updated accordingly.
If nuninst_arch is not None then it also updated in the same
way as broken is.
"""
c = 0
r = target_suite.is_installable(pkg_id)
if not r:
# not installable
if pkg_name not in broken:
# regression
broken.add(pkg_name)
c = -1
if nuninst_arch is not None and pkg_name not in nuninst_arch:
nuninst_arch.add(pkg_name)
else:
if pkg_name in broken:
# Improvement
broken.remove(pkg_name)
c = 1
if nuninst_arch is not None and pkg_name in nuninst_arch:
nuninst_arch.remove(pkg_name)
return c
def check_installability(target_suite, binaries, arch, updates, check_archall, nuninst):
broken = nuninst[arch + "+all"]
packages_t_a = binaries[arch]
for pkg_id in (x for x in updates if x.architecture == arch):
name, version, parch = pkg_id
if name not in packages_t_a:
continue
pkgdata = packages_t_a[name]
if version != pkgdata.version:
# Not the version in testing right now, ignore
continue
actual_arch = pkgdata.architecture
nuninst_arch = None
# only check arch:all packages if requested
if check_archall or actual_arch != 'all':
nuninst_arch = nuninst[parch]
elif actual_arch == 'all':
nuninst[parch].discard(name)
test_installability(target_suite, name, pkg_id, broken, nuninst_arch)
def possibly_compressed(path, *, permitted_compressions=None):
"""Find and select a (possibly compressed) variant of a path
If the given path exists, it will be returned
:param path The base path.
:param permitted_compressions An optional list of alternative extensions to look for.
Defaults to "gz" and "xz".
:returns The path given possibly with one of the permitted extensions. Will raise a
FileNotFoundError
"""
if os.path.exists(path):
return path
if permitted_compressions is None:
permitted_compressions = ['gz', 'xz']
for ext in permitted_compressions:
cpath = "%s.%s" % (path, ext)
if os.path.exists(cpath):
return cpath
raise FileNotFoundError(errno.ENOENT, os.strerror(errno.ENOENT), path) # pragma: no cover
def create_provides_map(packages):
"""Create a provides map from a map binary package names and thier BinaryPackage objects
:param packages: A dict mapping binary package names to their BinaryPackage object
:return: A provides map
"""
# create provides
provides = defaultdict(set)
for pkg, dpkg in packages.items():
# register virtual packages and real packages that provide
# them
for provided_pkg, provided_version, _ in dpkg.provides:
provides[provided_pkg].add((pkg, provided_version))
return provides
def read_release_file(suite_dir):
"""Parses a given "Release" file
:param suite_dir: The directory to the suite
:return: A dict of the first (and only) paragraph in an Release file
"""
release_file = os.path.join(suite_dir, 'Release')
with open(release_file) as fd:
tag_file = iter(apt_pkg.TagFile(fd))
result = next(tag_file)
if next(tag_file, None) is not None: # pragma: no cover
raise TypeError("%s has more than one paragraph" % release_file)
return result
def read_sources_file(filename, sources=None, intern=sys.intern):
"""Parse a single Sources file into a hash
Parse a single Sources file into a dict mapping a source package
name to a SourcePackage object. If there are multiple source
packages with the same version, then highest versioned source
package (that is not marked as "Extra-Source-Only") is the
version kept in the dict.
:param filename: Path to the Sources file. Can be compressed by any algorithm supported by apt_pkg.TagFile
:param sources: Optional dict to add the packages to. If given, this is also the value returned.
:param intern: Internal optimisation / implementation detail to avoid python's "LOAD_GLOBAL" instruction in a loop
:return a dict mapping a name to a source package
"""
if sources is None:
sources = {}
tag_file = apt_pkg.TagFile(filename)
get_field = tag_file.section.get
step = tag_file.step
while step():
if get_field('Extra-Source-Only', 'no') == 'yes':
# Ignore sources only referenced by Built-Using
continue
pkg = get_field('Package')
ver = get_field('Version')
# There may be multiple versions of the source package
# (in unstable) if some architectures have out-of-date
# binaries. We only ever consider the source with the
# largest version for migration.
if pkg in sources and apt_pkg.version_compare(sources[pkg].version, ver) > 0:
continue
maint = get_field('Maintainer')
if maint:
maint = intern(maint.strip())
section = get_field('Section')
if section:
section = intern(section.strip())
build_deps_arch = ", ".join(x for x in (get_field('Build-Depends'), get_field('Build-Depends-Arch'))
if x is not None)
if build_deps_arch != '':
build_deps_arch = sys.intern(build_deps_arch)
else:
build_deps_arch = None
build_deps_indep = get_field('Build-Depends-Indep')
if build_deps_indep is not None:
build_deps_indep = sys.intern(build_deps_indep)
sources[intern(pkg)] = SourcePackage(intern(pkg),
intern(ver),
section,
set(),
maint,
False,
build_deps_arch,
build_deps_indep,
get_field('Testsuite', '').split(),
get_field('Testsuite-Triggers', '').replace(',', '').split(),
)
return sources
def get_dependency_solvers(block, binaries_s_a, provides_s_a, *, build_depends=False, empty_set=frozenset()):
"""Find the packages which satisfy a dependency block
This method returns the list of packages which satisfy a dependency
block (as returned by apt_pkg.parse_depends) in a package table
for a given suite and architecture (a la self.binaries[suite][arch])
It can also handle build-dependency relations if the named parameter
"build_depends" is set to True. In this case, block should be based
on the return value from apt_pkg.parse_src_depends.
:param block: The dependency block as parsed by apt_pkg.parse_depends (or apt_pkg.parse_src_depends
if the "build_depends" is True)
:param binaries_s_a: A dict mapping package names to the relevant BinaryPackage
:param provides_s_a: A dict mapping package names to their providers (as generated by parse_provides)
:param build_depends: If True, treat the "block" parameter as a build-dependency relation rather than
a regular dependency relation.
:param empty_set: Internal implementation detail / optimisation
:return a list of package names solving the relation
"""
packages = []
# for every package, version and operation in the block
for name, version, op in block:
if ":" in name:
name, archqual = name.split(":", 1)
else:
archqual = None
# look for the package in unstable
if name in binaries_s_a:
package = binaries_s_a[name]
# check the versioned dependency and architecture qualifier
# (if present)
if (op == '' and version == '') or apt_pkg.check_dep(package.version, op, version):
if archqual is None:
packages.append(package)
elif build_depends and archqual == 'native':
# Multi-arch handling for build-dependencies
# - :native is ok always (since dpkg 1.19.1)
packages.append(package)
# Multi-arch handling for both build-dependencies and regular dependencies
# - :any is ok iff the target has "M-A: allowed"
if archqual == 'any' and package.multi_arch == 'allowed':
packages.append(package)
# look for the package in the virtual packages list and loop on them
for prov, prov_version in provides_s_a.get(name, empty_set):
assert prov in binaries_s_a
# A provides only satisfies:
# - an unversioned dependency (per Policy Manual §7.5)
# - a dependency without an architecture qualifier
# (per analysis of apt code)
if archqual is not None:
# Punt on this case - these days, APT and dpkg might actually agree on
# this.
continue
if (op == '' and version == '') or \
(prov_version != '' and apt_pkg.check_dep(prov_version, op, version)):
packages.append(binaries_s_a[prov])
return packages
def invalidate_excuses(excuses, valid, invalid, invalidated):
"""Invalidate impossible excuses
This method invalidates the impossible excuses, which depend
on invalid excuses. The two parameters contains the sets of
`valid' and `invalid' excuses.
"""
# make a list of all packages (source and binary) that are present in the
# excuses we have
excuses_packages = defaultdict(set)
for exc in excuses.values():
for arch in exc.packages:
for pkg_id in exc.packages[arch]:
# note that the same package can be in multiple excuses
# eg. when unstable and TPU have the same packages
excuses_packages[pkg_id].add(exc.name)
# create dependencies between excuses based on packages
excuses_rdeps = defaultdict(set)
for exc in excuses.values():
for deptype in exc.all_deps:
for d in exc.all_deps[deptype]:
excuses_rdeps[d].add(exc.name)
for pkg_dep in exc.depends_packages:
# set of excuses, each of which can satisfy this specific
# dependency
# if there is a dependency on a package that doesn't exist, the
# set will contain an ImpossibleDependencyState
dep_exc = set()
for pkg_id in pkg_dep.deps:
pkg_excuses = excuses_packages[pkg_id]
# if the dependency isn't found, we get an empty set
if pkg_excuses == frozenset():
imp_dep = ImpossibleDependencyState(
PolicyVerdict.REJECTED_PERMANENTLY,
"%s" % (pkg_id.name))
dep_exc.add(imp_dep)
else:
dep_exc |= pkg_excuses
for e in pkg_excuses:
excuses_rdeps[e].add(exc.name)
if not exc.add_dependency(dep_exc, pkg_dep.spec):
valid.discard(exc.name)
invalid.add(exc.name)
# loop on the invalid excuses
for ename in iter_except(invalid.pop, KeyError):
invalidated.add(ename)
# if there is no reverse dependency, skip the item
if ename not in excuses_rdeps:
continue
# if the dependency can be satisfied by a testing-proposed-updates excuse, skip the item
if (ename + "_tpu") in valid:
continue
rdep_verdict = PolicyVerdict.REJECTED_WAITING_FOR_ANOTHER_ITEM
if excuses[ename].policy_verdict.is_blocked:
rdep_verdict = PolicyVerdict.REJECTED_BLOCKED_BY_ANOTHER_ITEM
# loop on the reverse dependencies
for x in excuses_rdeps[ename]:
exc = excuses[x]
# if the item is valid and it is not marked as `forced', then we
# invalidate this specfic dependency
if x in valid and not exc.forced:
# mark this specific dependency as invalid
still_valid = exc.invalidate_dependency(ename, rdep_verdict)
# if there are no alternatives left for this dependency,
# invalidate the excuse
if not still_valid:
valid.discard(x)
invalid.add(x)
def compile_nuninst(target_suite, architectures, nobreakall_arches):
"""Compile a nuninst dict from the current testing
:param target_suite: The target suite
:param architectures: List of architectures
:param nobreakall_arches: List of architectures where arch:all packages must be installable
"""
nuninst = {}
binaries_t = target_suite.binaries
# for all the architectures
for arch in architectures:
# if it is in the nobreakall ones, check arch-independent packages too
check_archall = arch in nobreakall_arches
# check all the packages for this architecture
nuninst[arch] = set()
packages_t_a = binaries_t[arch]
for pkg_name, pkg_data in packages_t_a.items():
r = target_suite.is_installable(pkg_data.pkg_id)
if not r:
nuninst[arch].add(pkg_name)
# if they are not required, remove architecture-independent packages
nuninst[arch + "+all"] = nuninst[arch].copy()
if not check_archall:
for pkg_name in nuninst[arch + "+all"]:
pkg_data = packages_t_a[pkg_name]
if pkg_data.architecture == 'all':
nuninst[arch].remove(pkg_name)
return nuninst
def find_smooth_updateable_binaries(binaries_to_check,
source_data,
pkg_universe,
target_suite,
binaries_t,
binaries_s,
removals,
smooth_updates):
check = set()
smoothbins = set()
for pkg_id in binaries_to_check:
binary, _, parch = pkg_id
cruftbins = set()
# Not a candidate for smooth up date (newer non-cruft version in unstable)
if binary in binaries_s[parch]:
if binaries_s[parch][binary].source_version == source_data.version:
continue
cruftbins.add(binaries_s[parch][binary].pkg_id)
# Maybe a candidate (cruft or removed binary): check if config allows us to smooth update it.
if 'ALL' in smooth_updates or binaries_t[parch][binary].section in smooth_updates:
# if the package has reverse-dependencies which are
# built from other sources, it's a valid candidate for
# a smooth update. if not, it may still be a valid
# candidate if one if its r-deps is itself a candidate,
# so note it for checking later
rdeps = set(pkg_universe.reverse_dependencies_of(pkg_id))
# We ignore all binaries listed in "removals" as we
# assume they will leave at the same time as the
# given package.
rdeps.difference_update(removals, binaries_to_check)
smooth_update_it = False
if target_suite.any_of_these_are_in_the_suite(rdeps):
combined = set(smoothbins)
combined.add(pkg_id)
for rdep in rdeps:
# each dependency clause has a set of possible
# alternatives that can satisfy that dependency.
# if any of them is outside the set of smoothbins, the
# dependency can be satisfied even if this binary was
# removed, so there is no need to keep it around for a
# smooth update
# if not, only this binary can satisfy the dependency, so
# we should keep it around until the rdep is no longer in
# testing
for dep_clause in pkg_universe.dependencies_of(rdep):
# filter out cruft binaries from unstable, because
# they will not be added to the set of packages that
# will be migrated
if dep_clause - cruftbins <= combined:
smooth_update_it = True
break
if smooth_update_it:
smoothbins = combined
else:
check.add(pkg_id)
# check whether we should perform a smooth update for
# packages which are candidates but do not have r-deps
# outside of the current source
while 1:
found_any = False
for pkg_id in check:
rdeps = pkg_universe.reverse_dependencies_of(pkg_id)
if not rdeps.isdisjoint(smoothbins):
smoothbins.add(pkg_id)
found_any = True
if not found_any:
break
check = [x for x in check if x not in smoothbins]
return smoothbins
def parse_provides(provides_raw, pkg_id=None, logger=None):
parts = apt_pkg.parse_depends(provides_raw, False)
nprov = []
for or_clause in parts:
if len(or_clause) != 1: # pragma: no cover
if logger is not None:
msg = "Ignoring invalid provides in %s: Alternatives [%s]"
logger.warning(msg, str(pkg_id), str(or_clause))
continue
for part in or_clause:
provided, provided_version, op = part
if op != '' and op != '=': # pragma: no cover
if logger is not None:
msg = "Ignoring invalid provides in %s: %s (%s %s)"
logger.warning(msg, str(pkg_id), provided, op, provided_version)
continue
provided = sys.intern(provided)
provided_version = sys.intern(provided_version)
part = (provided, provided_version, sys.intern(op))
nprov.append(part)
return nprov
def compute_item_name(sources_t, sources_s, source_name, parch):
if source_name in sources_t and sources_t[source_name].version == sources_s[source_name].version:
return "%s/%s" % (source_name, parch)
return source_name
def parse_builtusing(builtusing_raw, pkg_id=None, logger=None):
parts = apt_pkg.parse_depends(builtusing_raw, False)
nbu = []
for or_clause in parts:
if len(or_clause) != 1: # pragma: no cover
if logger is not None:
msg = "Ignoring invalid builtusing in %s: Alternatives [%s]"
logger.warning(msg, str(pkg_id), str(or_clause))
continue
for part in or_clause:
bu, bu_version, op = part
if op != '=': # pragma: no cover
if logger is not None:
msg = "Ignoring invalid builtusing in %s: %s (%s %s)"
logger.warning(msg, str(pkg_id), bu, op, bu_version)
continue
bu = sys.intern(bu)
bu_version = sys.intern(bu_version)
part = (bu, bu_version)
nbu.append(part)
return nbu