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import sys
import copy
import logging
import lxml
import Bcfg2.Server.Plugin
logger = logging.getLogger(__name__)
try:
from hashlib import md5
except ImportError:
from md5 import md5
# we have to cache Collection objects so that calling Packages.Refresh
# or .Reload can tell the collection objects to clean up their cache,
# but we don't actually use the cache to return a Collection object
# when one is requested, because that prevents new machines from
# working, since a Collection object gets created by
# get_additional_data(), which is called for all clients at server
# startup. (It would also prevent machines that change groups from
# working properly; e.g., if you reinstall a machine with a new OS,
# then returning a cached Collection object would give the wrong
# sources to that client.) These are keyed by the collection
# cachekey, a unique key identifying the collection by its _config_,
# which could be shared among multiple clients.
collections = dict()
# cache mapping of hostname -> collection cachekey. this _is_ used to
# return a Collection object when one is requested, so each entry is
# very short-lived -- it's purged at the end of each client run.
clients = dict()
class Collection(Bcfg2.Server.Plugin.Debuggable):
def __init__(self, metadata, sources, basepath, debug=False):
""" don't call this directly; use the factory function """
Bcfg2.Server.Plugin.Debuggable.__init__(self)
self.debug_flag = debug
self.metadata = metadata
self.sources = sources
self.basepath = basepath
self.virt_pkgs = dict()
try:
self.setup = sources[0].setup
self.cachepath = sources[0].basepath
self.ptype = sources[0].ptype
except IndexError:
self.setup = None
self.cachepath = None
self.ptype = "unknown"
self.cachefile = None
@property
def cachekey(self):
return md5(self.sourcelist()).hexdigest()
def get_config(self):
self.logger.error("Packages: Cannot generate config for host %s with "
"no sources or multiple source types" %
self.metadata.hostname)
return ""
def sourcelist(self):
srcs = []
for source in self.sources:
# get_urls() loads url_map as a side-effect
source.get_urls()
for url_map in source.url_map:
reponame = source.get_repo_name(url_map)
srcs.append("Name: %s" % reponame)
srcs.append(" Type: %s" % source.ptype)
if url_map['url']:
srcs.append(" URL: %s" % url_map['url'])
elif url_map['rawurl']:
srcs.append(" RAWURL: %s" % url_map['rawurl'])
if source.gpgkeys:
srcs.append(" GPG Key(s): %s" % ", ".join(source.gpgkeys))
else:
srcs.append(" GPG Key(s): None")
if len(source.blacklist):
srcs.append(" Blacklist: %s" % ", ".join(source.blacklist))
if len(source.whitelist):
srcs.append(" Whitelist: %s" % ", ".join(source.whitelist))
srcs.append("")
return "\n".join(srcs)
def get_relevant_groups(self):
groups = []
for source in self.sources:
groups.extend(source.get_relevant_groups(self.metadata))
return sorted(list(set(groups)))
@property
def basegroups(self):
groups = set()
for source in self.sources:
groups.update(source.basegroups)
return list(groups)
@property
def cachefiles(self):
cachefiles = set([self.cachefile])
for source in self.sources:
cachefiles.add(source.cachefile)
return list(cachefiles)
def get_groups(self, grouplist):
""" provided since some backends may be able to query multiple
groups at once faster than serially """
rv = dict()
for group, ptype in grouplist:
rv[group] = self.get_group(group, ptype)
return rv
def get_group(self, group, ptype=None):
for source in self.sources:
pkgs = source.get_group(self.metadata, group, ptype=ptype)
if pkgs:
return pkgs
self.logger.warning("Packages: '%s' is not a valid group" % group)
return []
def is_package(self, package):
for source in self.sources:
if source.is_package(self.metadata, package):
return True
return False
def is_virtual_package(self, package):
for source in self.sources:
if source.is_virtual_package(self.metadata, package):
return True
return False
def get_deps(self, package):
for source in self.sources:
if source.is_package(self.metadata, package):
return source.get_deps(self.metadata, package)
return []
def get_essential(self):
essential = set()
for source in self.sources:
essential |= source.essentialpkgs
return essential
def get_provides(self, package):
for source in self.sources:
providers = source.get_provides(self.metadata, package)
if providers:
return providers
return []
def get_vpkgs(self):
""" get virtual packages """
vpkgs = dict()
for source in self.sources:
s_vpkgs = source.get_vpkgs(self.metadata)
for name, prov_set in list(s_vpkgs.items()):
if name not in vpkgs:
vpkgs[name] = set(prov_set)
else:
vpkgs[name].update(prov_set)
return vpkgs
def filter_unknown(self, unknown):
for source in self.sources:
source.filter_unknown(unknown)
def magic_groups_match(self):
for source in self.sources:
if source.magic_groups_match(self.metadata):
return True
def build_extra_structures(self, independent):
pass
def get_additional_data(self):
sdata = []
for source in self.sources:
sdata.extend(copy.deepcopy(source.url_map))
return sdata
def setup_data(self, force_update=False):
""" do any collection-level data setup tasks """
pass
def packages_from_entry(self, entry):
""" given a Package or BoundPackage entry, get a list of the
package(s) described by it in a format appropriate for passing
to complete(). by default, that's just the name; only the Yum
backend supports getting versions"""
return [entry.get("name")]
def packages_to_entry(self, pkglist, entry):
for pkg in pkglist:
lxml.etree.SubElement(entry, 'BoundPackage', name=pkg,
version=self.setup.cfp.get("packages",
"version",
default="auto"),
type=self.ptype, origin='Packages')
def get_new_packages(self, initial, complete):
""" compute the difference between the complete package list
and the initial package list. this is necessary because the
format may be different between the two lists due to
packages_{to,from}_entry() """
return list(complete.difference(initial))
def complete(self, packagelist):
'''Build the transitive closure of all package dependencies
Arguments:
packageslist - set of package names
returns => (set(packages), set(unsatisfied requirements))
'''
# setup vpkg cache
pgrps = tuple(self.get_relevant_groups())
if pgrps not in self.virt_pkgs:
self.virt_pkgs[pgrps] = self.get_vpkgs()
vpkg_cache = self.virt_pkgs[pgrps]
# unclassified is set of unsatisfied requirements (may be pkg
# for vpkg)
unclassified = set(packagelist)
vpkgs = set()
both = set()
pkgs = set(packagelist)
packages = set()
examined = set()
unknown = set()
final_pass = False
really_done = False
# do while unclassified or vpkgs or both or pkgs
while unclassified or pkgs or both or final_pass:
if really_done:
break
if len(unclassified) + len(pkgs) + len(both) == 0:
# one more pass then exit
really_done = True
while unclassified:
current = unclassified.pop()
examined.add(current)
is_pkg = False
if self.is_package(current):
is_pkg = True
is_vpkg = current in vpkg_cache
if is_pkg and is_vpkg:
both.add(current)
elif is_pkg and not is_vpkg:
pkgs.add(current)
elif is_vpkg and not is_pkg:
vpkgs.add(current)
elif not is_vpkg and not is_pkg:
unknown.add(current)
while pkgs:
# direct packages; current can be added, and all deps
# should be resolved
current = pkgs.pop()
self.debug_log("Packages: handling package requirement %s" %
current)
packages.add(current)
deps = self.get_deps(current)
newdeps = set(deps).difference(examined)
if newdeps:
self.debug_log("Packages: Package %s added requirements %s"
% (current, newdeps))
unclassified.update(newdeps)
satisfied_vpkgs = set()
for current in vpkgs:
# virtual dependencies, satisfied if one of N in the
# config, or can be forced if only one provider
if len(vpkg_cache[current]) == 1:
self.debug_log("Packages: requirement %s satisfied by %s" %
(current, vpkg_cache[current]))
unclassified.update(vpkg_cache[current].difference(examined))
satisfied_vpkgs.add(current)
else:
satisfiers = [item for item in vpkg_cache[current]
if item in packages]
self.debug_log("Packages: requirement %s satisfied by %s" %
(current, satisfiers))
satisfied_vpkgs.add(current)
vpkgs.difference_update(satisfied_vpkgs)
satisfied_both = set()
for current in both:
# packages that are both have virtual providers as
# well as a package with that name. allow use of virt
# through explicit specification, then fall back to
# forcing current on last pass
satisfiers = [item for item in vpkg_cache[current]
if item in packages]
if satisfiers:
self.debug_log("Packages: requirement %s satisfied by %s" %
(current, satisfiers))
satisfied_both.add(current)
elif current in packagelist or final_pass:
pkgs.add(current)
satisfied_both.add(current)
both.difference_update(satisfied_both)
if len(unclassified) + len(pkgs) == 0:
final_pass = True
else:
final_pass = False
self.filter_unknown(unknown)
return packages, unknown
def __len__(self):
return len(self.sources)
def __getitem__(self, item):
return self.sources[item]
def __setitem__(self, item, value):
self.sources[item] = value
def __delitem__(self, item):
del self.sources[item]
def append(self, item):
self.sources.append(item)
def count(self):
return self.sources.count()
def index(self, item):
return self.sources.index(item)
def extend(self, items):
self.sources.extend(items)
def insert(self, index, item):
self.sources.insert(index, item)
def pop(self, index=None):
self.sources.pop(index)
def remove(self, item):
self.sources.remove(item)
def sort(self, cmp=None, key=None, reverse=False):
self.sources.sort(cmp, key, reverse)
def get_collection_class(source_type):
modname = "Bcfg2.Server.Plugins.Packages.%s" % source_type.title()
try:
module = sys.modules[modname]
except KeyError:
try:
module = __import__(modname).Server.Plugins.Packages
except ImportError:
msg = "Packages: Unknown source type %s" % source_type
logger.error(msg)
raise Bcfg2.Server.Plugin.PluginExecutionError(msg)
try:
cclass = getattr(module, source_type.title() + "Collection")
except AttributeError:
msg = "Packages: No collection class found for %s sources" % source_type
logger.error(msg)
raise Bcfg2.Server.Plugin.PluginExecutionError(msg)
return cclass
def clear_cache():
global collections
global clients
collections = dict()
clients = dict()
def factory(metadata, sources, basepath, debug=False):
global collections
if not sources.loaded:
# if sources.xml has not received a FAM event yet, defer;
# instantiate a dummy Collection object
return Collection(metadata, [], basepath)
if metadata.hostname in clients:
return collections[clients[metadata.hostname]]
sclasses = set()
relevant = list()
for source in sources:
if source.applies(metadata):
relevant.append(source)
sclasses.update([source.__class__])
if len(sclasses) > 1:
logger.warning("Packages: Multiple source types found for %s: %s" %
",".join([s.__name__ for s in sclasses]))
cclass = Collection
elif len(sclasses) == 0:
logger.error("Packages: No sources found for %s" % metadata.hostname)
cclass = Collection
else:
cclass = get_collection_class(sclasses.pop().__name__.replace("Source",
""))
if debug:
logger.error("Packages: Using %s for Collection of sources for %s" %
(cclass.__name__, metadata.hostname))
collection = cclass(metadata, relevant, basepath, debug=debug)
ckey = collection.cachekey
clients[metadata.hostname] = ckey
collections[ckey] = collection
return collection
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