?
Current Path : /usr/lib/python2.7/site-packages/yum/ |
Linux gator3171.hostgator.com 4.19.286-203.ELK.el7.x86_64 #1 SMP Wed Jun 14 04:33:55 CDT 2023 x86_64 |
Current File : //usr/lib/python2.7/site-packages/yum/rpmsack.py |
#!/usr/bin/python -tt # 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 Library General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. import rpm import types import warnings import glob import os import os.path from rpmUtils import miscutils from rpmUtils import arch from rpmUtils.transaction import initReadOnlyTransaction import misc import Errors from packages import YumInstalledPackage, parsePackages from packageSack import PackageSackBase, PackageSackVersion # For returnPackages(patterns=) import fnmatch import re from yum.i18n import to_unicode, _ import constants import yum.depsolve def _open_no_umask(*args): """ Annoying people like to set umask's for root, which screws everything up for user readable stuff. """ oumask = os.umask(022) try: ret = open(*args) finally: os.umask(oumask) return ret def _makedirs_no_umask(*args): """ Annoying people like to set umask's for root, which screws everything up for user readable stuff. """ oumask = os.umask(022) try: ret = os.makedirs(*args) finally: os.umask(oumask) return ret def _iopen(*args): """ IOError wrapper BS for open, stupid exceptions. """ try: ret = open(*args) except IOError, e: return None, e return ret, None class RPMInstalledPackage(YumInstalledPackage): def __init__(self, rpmhdr, index, rpmdb): self._has_hdr = True YumInstalledPackage.__init__(self, rpmhdr, yumdb=rpmdb.yumdb) self.idx = index self.rpmdb = rpmdb self._has_hdr = False del self.hdr def _get_hdr(self): # Note that we can't use hasattr(self, 'hdr') or we'll recurse if self._has_hdr: return self.hdr ts = self.rpmdb.readOnlyTS() mi = ts.dbMatch(0, self.idx) try: return mi.next() except StopIteration: raise Errors.PackageSackError, 'Rpmdb changed underneath us' def __getattr__(self, varname): # If these existed, then we wouldn't get here... # Prevent access of __foo__, _cached_foo etc from loading the header if varname.startswith('_'): raise AttributeError, "%s has no attribute %s" % (self, varname) if varname != 'hdr': # Don't cache the hdr, unless explicitly requested # Note that we don't even cache the .blah value, but looking up the # header is _really_ fast so it's not obvious any of it is worth it. # This is different to prco etc. data, which is loaded separately. val = self._get_hdr() else: self.hdr = val = self._get_hdr() self._has_hdr = True if varname != 'hdr': # This is unusual, for anything that happens val = val[varname] # a lot we should preload at __init__. # Also note that pkg.no_value raises KeyError. return val def requiring_packages(self): """return list of installed pkgs requiring this package""" pkgset = set() for (reqn, reqf, reqevr) in self.provides: for pkg in self.rpmdb.getRequires(reqn,reqf,reqevr): if pkg != self: pkgset.add(pkg) for fn in self.filelist + self.dirlist: for pkg in self.rpmdb.getRequires(fn, None, (None, None, None)): if pkg != self: pkgset.add(pkg) return list(pkgset) def required_packages(self): pkgset = set() for (reqn, reqf, reqevr) in self.strong_requires: for pkg in self.rpmdb.getProvides(reqn, reqf, reqevr): if pkg != self: pkgset.add(pkg) return list(pkgset) class RPMDBProblem: ''' Represents a problem in the rpmdb, from the check_*() functions. ''' def __init__(self, pkg, problem, **kwargs): self.pkg = pkg self.problem = problem for kwarg in kwargs: setattr(self, kwarg, kwargs[kwarg]) def __cmp__(self, other): if other is None: return 1 return cmp(self.pkg, other.pkg) or cmp(self.problem, other.problem) class RPMDBProblemDependency(RPMDBProblem): def __str__(self): if self.problem == 'requires': return "%s %s %s" % (self.pkg, _('has missing requires of'), self.missing) return "%s %s %s: %s" % (self.pkg, _('has installed conflicts'), self.found,', '.join(map(str, self.conflicts))) class RPMDBProblemDuplicate(RPMDBProblem): def __init__(self, pkg, **kwargs): RPMDBProblem.__init__(self, pkg, "duplicate", **kwargs) def __str__(self): return _("%s is a duplicate with %s") % (self.pkg, self.duplicate) class RPMDBProblemObsoleted(RPMDBProblem): def __init__(self, pkg, **kwargs): RPMDBProblem.__init__(self, pkg, "obsoleted", **kwargs) def __str__(self): return _("%s is obsoleted by %s") % (self.pkg, self.obsoleter) class RPMDBProblemProvides(RPMDBProblem): def __init__(self, pkg, **kwargs): RPMDBProblem.__init__(self, pkg, "provides", **kwargs) def __str__(self): return _("%s provides %s but it cannot be found") % (self.pkg, self.provide) class RPMDBPackageSack(PackageSackBase): ''' Represent rpmdb as a packagesack ''' DEP_TABLE = { 'requires' : (rpm.RPMTAG_REQUIRENAME, rpm.RPMTAG_REQUIREVERSION, rpm.RPMTAG_REQUIREFLAGS), 'provides' : (rpm.RPMTAG_PROVIDENAME, rpm.RPMTAG_PROVIDEVERSION, rpm.RPMTAG_PROVIDEFLAGS), 'conflicts' : (rpm.RPMTAG_CONFLICTNAME, rpm.RPMTAG_CONFLICTVERSION, rpm.RPMTAG_CONFLICTFLAGS), 'obsoletes' : (rpm.RPMTAG_OBSOLETENAME, rpm.RPMTAG_OBSOLETEVERSION, rpm.RPMTAG_OBSOLETEFLAGS) } # Do we want to cache rpmdb data in a file, for later use? __cache_rpmdb__ = True def __init__(self, root='/', releasever=None, cachedir=None, persistdir='/var/lib/yum'): self.root = root self._idx2pkg = {} self._name2pkg = {} self._pkgnames_loaded = set() self._tup2pkg = {} self._completely_loaded = False self._pkgname_fails = set() self._pkgmatch_fails = set() self._provmatch_fails = set() self._simple_pkgtup_list = [] self._get_pro_cache = {} self._get_req_cache = {} self._loaded_gpg_keys = False if cachedir is None: cachedir = persistdir + "/rpmdb-indexes" self.setCacheDir(cachedir) if not os.path.normpath(persistdir).startswith(self.root): self._persistdir = root + '/' + persistdir else: self._persistdir = persistdir if hasattr(rpm, 'expandMacro'): dbpath = rpm.expandMacro('%_dbpath') else: dbpath = '/var/lib/rpm' self._rpmdbpath = os.path.normpath(root + '/' + dbpath) self._have_cached_rpmdbv_data = None self._cached_conflicts_data = None # Store the result of what happens, if a transaction completes. self._trans_cache_store = {} self.ts = None self.releasever = releasever self.auto_close = False # this forces a self.ts.close() after # most operations so it doesn't leave # any lingering locks. self._cached_rpmdb_mtime = None self._cache = { 'provides' : { }, 'requires' : { }, 'conflicts' : { }, 'obsoletes' : { }, } addldb_path = os.path.normpath(self._persistdir + '/yumdb') version_path = os.path.normpath(cachedir + '/version') self.yumdb = RPMDBAdditionalData(db_path=addldb_path, version_path=version_path) def _get_pkglist(self): '''Getter for the pkglist property. Returns a list of package tuples. ''' if not self._simple_pkgtup_list: csumpkgtups = self.preloadPackageChecksums(load_packages=False) if csumpkgtups is not None: self._simple_pkgtup_list = csumpkgtups.keys() if not self._simple_pkgtup_list: for (hdr, mi) in self._get_packages(): self._simple_pkgtup_list.append(self._hdr2pkgTuple(hdr)) return self._simple_pkgtup_list pkglist = property(_get_pkglist, None) def dropCachedData(self): """ Drop all cached data, this is a big perf. hit if we need to load the data back in again. Also note that if we ever call this while a transaction is ongoing we'll have multiple copies of packages which is _bad_. """ self._idx2pkg = {} self._name2pkg = {} self._pkgnames_loaded = set() self._tup2pkg = {} self._completely_loaded = False self._pkgmatch_fails = set() self._pkgname_fails = set() self._provmatch_fails = set() self._simple_pkgtup_list = [] self._get_pro_cache = {} self._get_req_cache = {} # We can be called on python shutdown (due to yb.__del__), at which # point other modules might not be available. if misc is not None: misc.unshare_data() self._cache = { 'provides' : { }, 'requires' : { }, 'conflicts' : { }, 'obsoletes' : { }, } self._have_cached_rpmdbv_data = None self._cached_conflicts_data = None self.transactionReset() # Should do nothing, but meh... self._cached_rpmdb_mtime = None def dropCachedDataPostTransaction(self, txmbrs): """ Drop cached data that is assocciated with the given transaction, this tries to keep as much data as possible and even does a "preload" on the checksums. This should be called once, when a transaction is complete. """ # -- Below -- self._idx2pkg = {} # -- Below -- self._name2pkg = {} # -- Below -- self._pkgnames_loaded = set() # -- Below -- self._tup2pkg = {} self._completely_loaded = False self._pkgmatch_fails = set() # -- Below -- self._pkgname_fails = set() self._provmatch_fails = set() self._simple_pkgtup_list = [] self._get_pro_cache = {} self._get_req_cache = {} # We can be called on python shutdown (due to yb.__del__), at which # point other modules might not be available. if misc is not None: misc.unshare_data() self._cache = { 'provides' : { }, 'requires' : { }, 'conflicts' : { }, 'obsoletes' : { }, } self._have_cached_rpmdbv_data = None self._cached_conflicts_data = None self.transactionReset() # Should do nothing, but meh... # We are keeping some data from before, and sometimes (Eg. remove only) # we never open the rpmdb again ... so get the mtime now. rpmdbfname = self._rpmdbpath + "/Packages" self._cached_rpmdb_mtime = os.path.getmtime(rpmdbfname) def _safe_del(x, y): """ Make sure we never traceback here, because it screws our yumdb if we do. """ # Maybe use x.pop(y, None) ? if y in x: del x[y] precache = [] for txmbr in txmbrs: self._pkgnames_loaded.discard(txmbr.name) _safe_del(self._name2pkg, txmbr.name) if txmbr.output_state in constants.TS_INSTALL_STATES: self._pkgname_fails.discard(txmbr.name) precache.append(txmbr) if txmbr.reinstall: # For reinstall packages we have: # # 1. one txmbr: the new install. # 2. two rpmdb entries: the new; the old; # # ...so we need to remove the old one, given only the new # one. ipo = self._tup2pkg[txmbr.pkgtup] _safe_del(self._idx2pkg, ipo.idx) _safe_del(self._tup2pkg, txmbr.pkgtup) if txmbr.output_state in constants.TS_REMOVE_STATES: _safe_del(self._idx2pkg, txmbr.po.idx) _safe_del(self._tup2pkg, txmbr.pkgtup) for txmbr in precache: (n, a, e, v, r) = txmbr.pkgtup pkg = self.searchNevra(n, e, v, r, a) if not pkg: # Wibble? self._deal_with_bad_rpmdbcache("dCDPT(pkg checksums): %s" % txmbr) continue pkg = pkg[0] csum = txmbr.po.returnIdSum() if csum is None: continue (T, D) = (str(csum[0]), str(csum[1])) if ('checksum_type' in pkg.yumdb_info._read_cached_data or 'checksum_data' in pkg.yumdb_info._read_cached_data): continue pkg.yumdb_info._read_cached_data['checksum_type'] = T pkg.yumdb_info._read_cached_data['checksum_data'] = D def setCacheDir(self, cachedir): """ Sets the internal cachedir value for the rpmdb, to be the "rpmdb-indexes" directory in the persisent yum storage. """ if not os.path.normpath(cachedir).startswith(self.root): self._cachedir = self.root + '/' + cachedir else: self._cachedir = '/' + cachedir if hasattr(self, 'yumdb'): # Need to keep this up to date, after init. version_path = os.path.normpath(self._cachedir + '/version') self.yumdb.conf.version_path = version_path def readOnlyTS(self): if not self.ts: self.ts = initReadOnlyTransaction(root=self.root) if not self.ts.open: self.ts = initReadOnlyTransaction(root=self.root) return self.ts def buildIndexes(self): # Not used here return def _checkIndexes(self, failure='error'): # Not used here return def delPackage(self, obj): # Not supported with this sack type pass def searchAll(self, name, query_type='like'): result = {} # check provides tag = self.DEP_TABLE['provides'][0] mi = self._get_packages(patterns=[(tag, rpm.RPMMIRE_GLOB, name)]) for hdr, idx in mi: pkg = self._makePackageObject(hdr, idx) result.setdefault(pkg.pkgid, pkg) fileresults = self.searchFiles(name) for pkg in fileresults: result.setdefault(pkg.pkgid, pkg) return result.values() def searchFiles(self, name): """search the filelists in the rpms for anything matching name""" result = {} name = os.path.normpath(name) # Note that globs can't be done. As of 4.8.1: # mi.pattern('basenames', rpm.RPMMIRE_GLOB, name) # ...produces no results. for hdr, idx in self._get_packages('basenames', name): pkg = self._makePackageObject(hdr, idx) result.setdefault(pkg.pkgid, pkg) return result.values() def searchPrco(self, name, prcotype): result = self._cache[prcotype].get(name) if result is not None: return result (n,f,(e,v,r)) = misc.string_to_prco_tuple(name) glob = False if misc.re_glob(n): glob = True result = {} tag = self.DEP_TABLE[prcotype][0] for hdr, idx in self._get_packages(tag, misc.to_utf8(n)): po = self._makePackageObject(hdr, idx) if not glob: if po.checkPrco(prcotype, (n, f, (e,v,r))): result[po.pkgid] = po else: result[po.pkgid] = po # If it's not a provides or filename, we are done if prcotype == 'provides' and name[0] == '/': fileresults = self.searchFiles(name) for pkg in fileresults: result[pkg.pkgid] = pkg result = result.values() self._cache[prcotype][name] = result return result def searchProvides(self, name): if name in self._provmatch_fails: return [] ret = self.searchPrco(name, 'provides') if not ret: self._provmatch_fails.add(name) return ret def searchRequires(self, name): return self.searchPrco(name, 'requires') def searchObsoletes(self, name): return self.searchPrco(name, 'obsoletes') def searchConflicts(self, name): return self.searchPrco(name, 'conflicts') def simplePkgList(self): return self.pkglist installed = PackageSackBase.contains def returnNewestByNameArch(self, naTup=None, patterns=None): #FIXME - should this (or any packagesack) be returning tuples? if not naTup: return (name, arch) = naTup allpkg = self._search(name=name, arch=arch) if not allpkg: raise Errors.PackageSackError, 'No Package Matching %s' % name return [ po.pkgtup for po in misc.newestInList(allpkg) ] def returnNewestByName(self, name=None): if not name: return allpkgs = self._search(name=name) if not allpkgs: raise Errors.PackageSackError, 'No Package Matching %s' % name return misc.newestInList(allpkgs) @staticmethod def _compile_patterns(patterns, ignore_case=False): if not patterns or len(patterns) > constants.PATTERNS_MAX: return None ret = [] for pat in patterns: if not pat: continue qpat = pat[0] if qpat in ('?', '*', '['): qpat = None elif ignore_case: qpat = qpat.lower() ret.append((qpat, misc.compile_pattern(pat, ignore_case))) return ret @staticmethod def _match_repattern(repatterns, hdr, ignore_case): """ This is basically parsePackages() but for rpm hdr objects. """ if repatterns is None: return True for qpat, repat in repatterns: epoch = hdr['epoch'] if epoch is None: epoch = '0' else: epoch = str(epoch) qname = hdr['name'][0] if ignore_case: qname = qname.lower() if qpat is not None and qpat != qname and qpat != epoch[0]: continue if repat(hdr['name']): return True if repat("%(name)s-%(version)s-%(release)s.%(arch)s" % hdr): return True if repat("%(name)s.%(arch)s" % hdr): return True if repat("%(name)s-%(version)s" % hdr): return True if repat("%(name)s-%(version)s-%(release)s" % hdr): return True if repat(epoch + ":%(name)s-%(version)s-%(release)s.%(arch)s" % hdr): return True if repat(("%(name)s-" + epoch + ":%(version)s-%(release)s.%(arch)s") % hdr): return True return False def returnPackages(self, repoid=None, patterns=None, ignore_case=False): """Returns a list of packages. Note that the packages are always filtered to those matching the patterns/case. repoid is ignored, and is just here for compatibility with non-rpmdb sacks. """ # See if we can load the "patterns" via. dbMatch('name', ...) because # that's basically instant and walking the entire rpmdb isn't. # We assume that if we get "Yum" and _something_ matches, that we have # _all_ the matches. IOW there can be either Yum or yum, but not BOTH. if not self._completely_loaded and patterns: ret = [] for pat in patterns: # We aren't wasting anything here, because the next bit # will pick up any loads :) pkgs = self.searchNames([pat]) if not pkgs: # We could be given gliBc or mysql if ignore_case: break # We need to do a big search for 'pkg*' if misc.re_glob(pat): break # We need to do a big search for 'pkg-1.2' if '-' in pat: break # We need to do a big search for 'pkg.noarch' if '.' in pat: break # We don't need to do a big search for '0:pkg', because # <en> isn't possible ... and envra matches the above. # if ':' in pat: # break # At this point we have just found something that doesn't # match, like "yum list zzuf" ... we don't want this to take # the much slower path. ret.extend(pkgs) else: return ret ret = [] if patterns and not ignore_case: tpats = [] for pat in patterns: if pat in self._pkgmatch_fails: continue if pat in self._pkgnames_loaded: ret.extend(self._name2pkg[pat]) continue tpats.append(pat) patterns = tpats if not patterns: return ret if not self._completely_loaded: rpats = self._compile_patterns(patterns, ignore_case) for hdr, idx in self._get_packages(): if self._match_repattern(rpats, hdr, ignore_case): self._makePackageObject(hdr, idx) self._completely_loaded = rpats is None pkgobjlist = self._idx2pkg.values() # Remove gpg-pubkeys, as no sane callers expects/likes them... if self._loaded_gpg_keys: pkgobjlist = [pkg for pkg in pkgobjlist if pkg.name != 'gpg-pubkey'] if patterns: pkgobjlist = parsePackages(pkgobjlist, patterns, not ignore_case) self._pkgmatch_fails.update(pkgobjlist[2]) if ret: pkgobjlist = pkgobjlist[0] + pkgobjlist[1] + ret else: pkgobjlist = pkgobjlist[0] + pkgobjlist[1] for pkg in pkgobjlist: for pat in patterns: if pkg.name == pat: self._pkgnames_loaded.add(pkg.name) return pkgobjlist def _uncached_returnConflictPackages(self): """ Load the packages which have conflicts from the rpmdb, newer versions of rpm have an index here so this is as fast as cached (we test rpm version at cache write time). """ if self._cached_conflicts_data is None: result = {} for hdr, idx in self._get_packages('conflictname'): if not hdr[rpm.RPMTAG_CONFLICTNAME]: # Pre. rpm-4.9.x the above dbMatch() does nothing. continue po = self._makePackageObject(hdr, idx) result[po.pkgid] = po if po._has_hdr: continue # Unlikely, but, meh... po.hdr = hdr po._has_hdr = True po.conflicts po._has_hdr = False del po.hdr self._cached_conflicts_data = result.values() return self._cached_conflicts_data def _write_conflicts_new(self, pkgs, rpmdbv): if not os.access(self._cachedir, os.W_OK): return conflicts_fname = self._cachedir + '/conflicts' fo = _open_no_umask(conflicts_fname + '.tmp', 'w') fo.write("%s\n" % rpmdbv) fo.write("%u\n" % len(pkgs)) for pkg in sorted(pkgs): for var in pkg.pkgtup: fo.write("%s\n" % var) fo.close() os.rename(conflicts_fname + '.tmp', conflicts_fname) def _write_conflicts(self, pkgs): rpmdbv = self.simpleVersion(main_only=True)[0] self._write_conflicts_new(pkgs, rpmdbv) def _uncached_returnObsoletePackages(self): """ Load the packages which have obsoletes from the rpmdb, this is needed because newer rpm's have obsoletes imply conflicts. """ if self._cached_obsoletes_data is None: result = {} for hdr, idx in self._get_packages('obsoletename'): if not hdr[rpm.RPMTAG_OBSOLETENAME]: # Pre. rpm-4.9.x the above dbMatch() does nothing. continue po = self._makePackageObject(hdr, idx) result[po.pkgid] = po if po._has_hdr: continue # Unlikely, but, meh... po.hdr = hdr po._has_hdr = True po.obsoletes po._has_hdr = False del po.hdr self._cached_obsoletes_data = result.values() return self._cached_obsoletes_data def _write_obsoletes_new(self, pkgs, rpmdbv): if not os.access(self._cachedir, os.W_OK): return obsoletes_fname = self._cachedir + '/obsoletes' fo = _open_no_umask(obsoletes_fname + '.tmp', 'w') fo.write("%s\n" % rpmdbv) fo.write("%u\n" % len(pkgs)) for pkg in sorted(pkgs): for var in pkg.pkgtup: fo.write("%s\n" % var) fo.close() os.rename(obsoletes_fname + '.tmp', obsoletes_fname) def _write_obsoletes(self, pkgs): rpmdbv = self.simpleVersion(main_only=True)[0] self._write_obsoletes_new(pkgs, rpmdbv) def _deal_with_bad_rpmdbcache(self, caller): """ This shouldn't be called, but people are hitting weird stuff so we want to deal with it so it doesn't stay broken "forever". """ misc.unlink_f(self._cachedir + "/version") misc.unlink_f(self._cachedir + '/conflicts') misc.unlink_f(self._cachedir + '/obsoletes') misc.unlink_f(self._cachedir + '/file-requires') misc.unlink_f(self._cachedir + '/pkgtups-checksums') # We have a couple of options here, we can: # # . Ignore it and continue - least invasive, least likely to get any # bugs fixed. # # . Ignore it and continue, when not in debug mode - Helps users doing # weird things (and we won't know), but normal bugs will be seen by # anyone not running directly from a package. # # . Always throw - but at least it shouldn't happen again. # if __debug__: raise Errors.PackageSackError, 'Rpmdb checksum is invalid: %s' % caller def _read_pkglist(self, fname): if not self.__cache_rpmdb__: return None def _read_str(fo): return fo.readline()[:-1] full_fname = self._cachedir + '/' + fname fo, e = _iopen(full_fname) if fo is None: return None frpmdbv = fo.readline() rpmdbv = self.simpleVersion(main_only=True)[0] if not frpmdbv or rpmdbv != frpmdbv[:-1]: return None ret = [] try: # Read the pkgs... pkgtups_num = int(_read_str(fo)) while pkgtups_num > 0: pkgtups_num -= 1 # n, a, e, v, r pkgtup = (_read_str(fo), _read_str(fo), _read_str(fo), _read_str(fo), _read_str(fo)) int(pkgtup[2]) # Check epoch is valid ret.extend(self.searchPkgTuple(pkgtup)) if fo.readline() != '': # Should be EOF return None except ValueError: self._deal_with_bad_rpmdbcache(fname) return None return ret def _read_conflicts(self): self._cached_conflicts_data = self._read_pkglist("conflicts") return self._cached_conflicts_data def transactionCacheConflictPackages(self, pkgs): if self.__cache_rpmdb__: self._trans_cache_store['conflicts'] = pkgs def returnConflictPackages(self): """ Return a list of packages that have conflicts. """ pkgs = self._read_conflicts() if pkgs is None: pkgs = self._uncached_returnConflictPackages() if self.__cache_rpmdb__: self._write_conflicts(pkgs) return pkgs def transactionCacheObsoletePackages(self, pkgs): if self.__cache_rpmdb__: self._trans_cache_store['obsoletes'] = pkgs def _read_obsoletes(self): self._cached_obsoletes_data = self._read_pkglist("obsoletes") return self._cached_obsoletes_data def returnObsoletePackages(self): """ Return a list of packages that have obsoletes. """ pkgs = self._read_obsoletes() if pkgs is None: pkgs = self._uncached_returnObsoletePackages() if self.__cache_rpmdb__: self._write_obsoletes(pkgs) return pkgs def transactionResultVersion(self, rpmdbv): """ We are going to do a transaction, and the parameter will be the rpmdb version when we finish. The idea being we can update all our rpmdb caches for that rpmdb version. """ if not self.__cache_rpmdb__: self._trans_cache_store = {} return if 'conflicts' in self._trans_cache_store: pkgs = self._trans_cache_store['conflicts'] self._write_conflicts_new(pkgs, rpmdbv) if 'obsoletes' in self._trans_cache_store: pkgs = self._trans_cache_store['obsoletes'] self._write_obsoletes_new(pkgs, rpmdbv) if 'file-requires' in self._trans_cache_store: data = self._trans_cache_store['file-requires'] self._write_file_requires(rpmdbv, data) if 'pkgtups-checksums' in self._trans_cache_store: data = self._trans_cache_store['pkgtups-checksums'] self._write_package_checksums(rpmdbv, data) self._trans_cache_store = {} def transactionReset(self): """ We are going to reset the transaction, because the data we've added already might now be invalid (Eg. skip-broken, or splitting a transaction). """ self._trans_cache_store = {} def returnGPGPubkeyPackages(self): """ Return packages of the gpg-pubkeys ... hacky. """ ts = self.readOnlyTS() mi = ts.dbMatch('name', 'gpg-pubkey') ret = [] for hdr in mi: self._loaded_gpg_keys = True ret.append(self._makePackageObject(hdr, mi.instance())) return ret def _read_file_requires(self): def _read_str(fo): return fo.readline()[:-1] assert self.__cache_rpmdb__ fo, e = _iopen(self._cachedir + '/file-requires') if fo is None: return None, None rpmdbv = self.simpleVersion(main_only=True)[0] frpmdbv = fo.readline() if not frpmdbv or rpmdbv != frpmdbv[:-1]: return None, None iFR = {} iFP = {} try: # Read the requires... pkgtups_num = int(_read_str(fo)) while pkgtups_num > 0: pkgtups_num -= 1 # n, a, e, v, r pkgtup = (_read_str(fo), _read_str(fo), _read_str(fo), _read_str(fo), _read_str(fo)) int(pkgtup[2]) # Check epoch is valid files_num = int(_read_str(fo)) while files_num > 0: files_num -= 1 fname = _read_str(fo) iFR.setdefault(pkgtup, []).append(fname) # Read the provides... files_num = int(_read_str(fo)) while files_num > 0: files_num -= 1 fname = _read_str(fo) pkgtups_num = int(_read_str(fo)) while pkgtups_num > 0: pkgtups_num -= 1 # n, a, e, v, r pkgtup = (_read_str(fo), _read_str(fo), _read_str(fo), _read_str(fo), _read_str(fo)) int(pkgtup[2]) # Check epoch is valid iFP.setdefault(fname, []).append(pkgtup) if fo.readline() != '': # Should be EOF return None, None except ValueError: self._deal_with_bad_rpmdbcache("file requires") return None, None return iFR, iFP def fileRequiresData(self): """ Get a cached copy of the fileRequiresData for depsolving/checkFileRequires, note the giant comment in that function about how we don't keep this perfect for the providers of the requires. """ if self.__cache_rpmdb__: iFR, iFP = self._read_file_requires() if iFR is not None: return iFR, set(), iFP installedFileRequires = {} installedUnresolvedFileRequires = set() resolved = set() for pkg in self.returnPackages(): for name, flag, evr in pkg.requires: if not name.startswith('/'): continue installedFileRequires.setdefault(pkg.pkgtup, []).append(name) if name not in resolved: dep = self.getProvides(name, flag, evr) resolved.add(name) if not dep: installedUnresolvedFileRequires.add(name) fileRequires = set() for fnames in installedFileRequires.itervalues(): fileRequires.update(fnames) installedFileProviders = {} for fname in fileRequires: pkgtups = [pkg.pkgtup for pkg in self.getProvides(fname)] installedFileProviders[fname] = pkgtups ret = (installedFileRequires, installedUnresolvedFileRequires, installedFileProviders) if self.__cache_rpmdb__: rpmdbv = self.simpleVersion(main_only=True)[0] self._write_file_requires(rpmdbv, ret) return ret def transactionCacheFileRequires(self, installedFileRequires, installedUnresolvedFileRequires, installedFileProvides, problems): if not self.__cache_rpmdb__: return if installedUnresolvedFileRequires or problems: return data = (installedFileRequires, installedUnresolvedFileRequires, installedFileProvides) self._trans_cache_store['file-requires'] = data def _write_file_requires(self, rpmdbversion, data): if not os.access(self._cachedir, os.W_OK): return (installedFileRequires, installedUnresolvedFileRequires, installedFileProvides) = data # Have to do this here, as well as in transactionCacheFileRequires, # because fileRequiresData() calls us directly. if installedUnresolvedFileRequires: return fo = _open_no_umask(self._cachedir + '/file-requires.tmp', 'w') fo.write("%s\n" % rpmdbversion) fo.write("%u\n" % len(installedFileRequires)) for pkgtup in sorted(installedFileRequires): for var in pkgtup: fo.write("%s\n" % var) filenames = set(installedFileRequires[pkgtup]) fo.write("%u\n" % len(filenames)) for fname in sorted(filenames): fo.write("%s\n" % fname) fo.write("%u\n" % len(installedFileProvides)) for fname in sorted(installedFileProvides): fo.write("%s\n" % fname) pkgtups = set(installedFileProvides[fname]) fo.write("%u\n" % len(pkgtups)) for pkgtup in sorted(pkgtups): for var in pkgtup: fo.write("%s\n" % var) fo.close() os.rename(self._cachedir + '/file-requires.tmp', self._cachedir + '/file-requires') def preloadPackageChecksums(self, load_packages=True): """ As simpleVersion() et. al. requires it, we "cache" this yumdb data as part of our rpmdb cache. We cache it with rpmdb data, even though someone _could_ use yumdb to alter it without changing the rpmdb ... don't do that. NOTE: This is also used as a cache of pkgtups in the rpmdb. """ if not self.__cache_rpmdb__: return def _read_str(fo): return fo.readline()[:-1] fo, e = _iopen(self._cachedir + '/pkgtups-checksums') if fo is None: return rpmdbv = self.simpleVersion(main_only=True)[0] frpmdbv = fo.readline() if not frpmdbv or rpmdbv != frpmdbv[:-1]: return checksum_data = {} try: # Read the checksums... pkgtups_num = int(_read_str(fo)) while pkgtups_num > 0: pkgtups_num -= 1 # n, a, e, v, r pkgtup = (_read_str(fo), _read_str(fo), _read_str(fo), _read_str(fo), _read_str(fo)) int(pkgtup[2]) # Check epoch is valid T = _read_str(fo) D = _read_str(fo) if T == '-': checksum_data[pkgtup] = None else: checksum_data[pkgtup] = (T, D) if fo.readline() != '': # Should be EOF return except ValueError: self._deal_with_bad_rpmdbcache("pkg checksums") return if not load_packages: return checksum_data for pkgtup in checksum_data: if checksum_data[pkgtup] is None: continue (n, a, e, v, r) = pkgtup pkg = self.searchNevra(n, e, v, r, a) if not pkg: self._deal_with_bad_rpmdbcache("pkg checksums: %s-%s:%s-%s.%s" % (n, e, v, r, a)) continue pkg = pkg[0] (T, D) = checksum_data[pkgtup] if ('checksum_type' in pkg.yumdb_info._read_cached_data or 'checksum_data' in pkg.yumdb_info._read_cached_data): continue pkg.yumdb_info._read_cached_data['checksum_type'] = T pkg.yumdb_info._read_cached_data['checksum_data'] = D def transactionCachePackageChecksums(self, pkg_checksum_tups): if not self.__cache_rpmdb__: return self._trans_cache_store['pkgtups-checksums'] = pkg_checksum_tups def _write_package_checksums(self, rpmdbversion, data): if not os.access(self._cachedir, os.W_OK): return pkg_checksum_tups = data fo = _open_no_umask(self._cachedir + '/pkgtups-checksums.tmp', 'w') fo.write("%s\n" % rpmdbversion) fo.write("%u\n" % len(pkg_checksum_tups)) for pkgtup, TD in sorted(pkg_checksum_tups): for var in pkgtup: fo.write("%s\n" % var) if TD is None: TD = ('-', '-') for var in TD: fo.write("%s\n" % var) fo.close() os.rename(self._cachedir + '/pkgtups-checksums.tmp', self._cachedir + '/pkgtups-checksums') def _get_cached_simpleVersion_main(self): """ Return the cached string of the main rpmdbv. """ if self._have_cached_rpmdbv_data is not None: return self._have_cached_rpmdbv_data if not self.__cache_rpmdb__: return None # This test is "obvious" and the only thing to come out of: # http://lists.rpm.org/pipermail/rpm-maint/2007-November/001719.html # ...if anything gets implemented, we should change. rpmdbvfname = self._cachedir + "/version" rpmdbfname = self._rpmdbpath + "/Packages" if os.path.exists(rpmdbvfname) and os.path.exists(rpmdbfname): # See if rpmdb has "changed" ... nmtime = os.path.getmtime(rpmdbvfname) omtime = os.path.getmtime(rpmdbfname) if omtime <= nmtime: fo, e = _iopen(rpmdbvfname) if fo is None: return None rpmdbv = fo.readline()[:-1] self._have_cached_rpmdbv_data = rpmdbv return self._have_cached_rpmdbv_data def _put_cached_simpleVersion_main(self, rpmdbv): self._have_cached_rpmdbv_data = str(rpmdbv) if not self.__cache_rpmdb__: return if self._cached_rpmdb_mtime is None: return # We haven't loaded any packages!!! rpmdbfname = self._rpmdbpath + "/Packages" if not os.path.exists(rpmdbfname): return # haha _cached_rpmdb_mtime = os.path.getmtime(rpmdbfname) if self._cached_rpmdb_mtime != _cached_rpmdb_mtime: # Something altered the rpmdb since we loaded our first package, # so don't save the rpmdb version as who knows what happened. return rpmdbvfname = self._cachedir + "/version" if not os.access(self._cachedir, os.W_OK): if os.path.exists(self._cachedir): return try: _makedirs_no_umask(self._cachedir) except (IOError, OSError), e: return fo = _open_no_umask(rpmdbvfname + ".tmp", "w") fo.write(self._have_cached_rpmdbv_data) fo.write('\n') fo.close() os.rename(rpmdbvfname + ".tmp", rpmdbvfname) def simpleVersion(self, main_only=False, groups={}): """ Return a simple version for all installed packages. """ def _up_revs(irepos, repoid, rev, pkg, csum): irevs = irepos.setdefault(repoid, {}) rpsv = irevs.setdefault(None, PackageSackVersion()) rpsv.update(pkg, csum) if rev is not None: rpsv = irevs.setdefault(rev, PackageSackVersion()) rpsv.update(pkg, csum) if main_only and not groups: rpmdbv = self._get_cached_simpleVersion_main() if rpmdbv is not None: return [rpmdbv, {}] main = PackageSackVersion() irepos = {} main_grps = {} irepos_grps = {} for pkg in sorted(self.returnPackages()): ydbi = pkg.yumdb_info csum = None if 'checksum_type' in ydbi and 'checksum_data' in ydbi: csum = (ydbi.checksum_type, ydbi.checksum_data) main.update(pkg, csum) for group in groups: if pkg.name in groups[group]: if group not in main_grps: main_grps[group] = PackageSackVersion() irepos_grps[group] = {} main_grps[group].update(pkg, csum) if main_only: continue repoid = 'installed' rev = None if 'from_repo' in pkg.yumdb_info: repoid = '@' + pkg.yumdb_info.from_repo if 'from_repo_revision' in pkg.yumdb_info: rev = pkg.yumdb_info.from_repo_revision _up_revs(irepos, repoid, rev, pkg, csum) for group in groups: if pkg.name in groups[group]: _up_revs(irepos_grps[group], repoid, rev, pkg, csum) if self._have_cached_rpmdbv_data is None: self._put_cached_simpleVersion_main(main) if groups: return [main, irepos, main_grps, irepos_grps] return [main, irepos] @staticmethod def _find_search_fields(fields, searchstrings, hdr): count = 0 for s in searchstrings: for field in fields: value = to_unicode(hdr[field]) if value and value.lower().find(s) != -1: count += 1 break return count def searchPrimaryFieldsMultipleStrings(self, fields, searchstrings, lowered=False): if not lowered: searchstrings = map(lambda x: x.lower(), searchstrings) ret = [] for hdr, idx in self._get_packages(): n = self._find_search_fields(fields, searchstrings, hdr) if n > 0: ret.append((self._makePackageObject(hdr, idx), n)) return ret def searchNames(self, names=[]): returnList = [] for name in names: returnList.extend(self._search(name=name)) return returnList def searchNevra(self, name=None, epoch=None, ver=None, rel=None, arch=None): return self._search(name, epoch, ver, rel, arch) def excludeArchs(self, archlist): pass def returnLeafNodes(self, repoid=None): ts = self.readOnlyTS() return [ self._makePackageObject(h, mi) for (h, mi) in ts.returnLeafNodes(headers=True) ] # Helper functions def _get_packages(self, *args, **kwds): '''dbMatch() wrapper generator that yields (header, index) for matches ''' ts = self.readOnlyTS() mi = ts.dbMatch(*args, **kwds) for h in mi: if h['name'] != 'gpg-pubkey': yield (h, mi.instance()) del mi if self.auto_close: self.ts.close() def _search(self, name=None, epoch=None, ver=None, rel=None, arch=None): '''List of matching packages, to zero or more of NEVRA.''' if name is not None and name in self._pkgname_fails: return [] pkgtup = (name, arch, epoch, ver, rel) if pkgtup in self._tup2pkg: return [self._tup2pkg[pkgtup]] loc = locals() ret = [] if self._completely_loaded or name in self._pkgnames_loaded: if name is not None: pkgs = self._name2pkg.get(name, []) if not pkgs: self._pkgname_fails.add(name) else: pkgs = self.returnPackages() for po in pkgs: for tag in ('arch', 'rel', 'ver', 'epoch'): if loc[tag] is not None and loc[tag] != getattr(po, tag): break else: ret.append(po) return ret ts = self.readOnlyTS() if name is not None: mi = self._get_packages('name', name) elif arch is not None: mi = self._get_packages('arch', arch) else: mi = self._get_packages() self._completely_loaded = True done = False for hdr, idx in mi: po = self._makePackageObject(hdr, idx) # We create POs out of all matching names, even if we don't return # them. self._pkgnames_loaded.add(po.name) done = True for tag in ('arch', 'rel', 'ver', 'epoch'): if loc[tag] is not None and loc[tag] != getattr(po, tag): break else: ret.append(po) if not done and name is not None: self._pkgname_fails.add(name) return ret def _makePackageObject(self, hdr, index): if index in self._idx2pkg: return self._idx2pkg[index] po = RPMInstalledPackage(hdr, index, self) self._idx2pkg[index] = po self._name2pkg.setdefault(po.name, []).append(po) self._tup2pkg[po.pkgtup] = po if self.__cache_rpmdb__ and self._cached_rpmdb_mtime is None: rpmdbfname = self._rpmdbpath + "/Packages" self._cached_rpmdb_mtime = os.path.getmtime(rpmdbfname) return po def _hdr2pkgTuple(self, hdr): name = misc.share_data(hdr['name']) arch = misc.share_data(hdr['arch']) # convert these to strings to be sure ver = misc.share_data(str(hdr['version'])) rel = misc.share_data(str(hdr['release'])) epoch = hdr['epoch'] if epoch is None: epoch = '0' else: epoch = str(epoch) epoch = misc.share_data(epoch) return misc.share_data((name, arch, epoch, ver, rel)) # deprecated options for compat only - remove once rpmdb is converted: def getPkgList(self): warnings.warn('getPkgList() will go away in a future version of Yum.\n' 'Please access this via the pkglist attribute.', DeprecationWarning, stacklevel=2) return self.pkglist def getHdrList(self): warnings.warn('getHdrList() will go away in a future version of Yum.\n', DeprecationWarning, stacklevel=2) return [ hdr for hdr, idx in self._get_packages() ] def getNameArchPkgList(self): warnings.warn('getNameArchPkgList() will go away in a future version of Yum.\n', DeprecationWarning, stacklevel=2) lst = [] for (name, arch, epoch, ver, rel) in self.pkglist: lst.append((name, arch)) return miscutils.unique(lst) def getNamePkgList(self): warnings.warn('getNamePkgList() will go away in a future version of Yum.\n', DeprecationWarning, stacklevel=2) lst = [] for (name, arch, epoch, ver, rel) in self.pkglist: lst.append(name) return miscutils.unique(lst) def returnTupleByKeyword(self, name=None, arch=None, epoch=None, ver=None, rel=None): warnings.warn('returnTuplebyKeyword() will go away in a future version of Yum.\n', DeprecationWarning, stacklevel=2) return [po.pkgtup for po in self._search(name=name, arch=arch, epoch=epoch, ver=ver, rel=rel)] def returnHeaderByTuple(self, pkgtuple): warnings.warn('returnHeaderByTuple() will go away in a future version of Yum.\n', DeprecationWarning, stacklevel=2) """returns a list of header(s) based on the pkgtuple provided""" (n, a, e, v, r) = pkgtuple lst = self.searchNevra(name=n, arch=a, epoch=e, ver=v, rel=r) if len(lst) > 0: item = lst[0] return [item.hdr] else: return [] def returnIndexByTuple(self, pkgtuple): """returns a list of header indexes based on the pkgtuple provided""" warnings.warn('returnIndexbyTuple() will go away in a future version of Yum.\n', DeprecationWarning, stacklevel=2) name, arch, epoch, version, release = pkgtuple # Normalise epoch if epoch in (None, 0, '(none)', ''): epoch = '0' return [po.idx for po in self._search(name, epoch, version, release, arch)] def addDB(self, ts): # Can't support this now raise NotImplementedError @staticmethod def _genDeptup(name, flags, version): """ Given random stuff, generate a usable dep tuple. """ if flags == 0: flags = None if type(version) is types.StringType: (r_e, r_v, r_r) = miscutils.stringToVersion(version) # would this ever be a ListType? elif type(version) in (types.TupleType, types.ListType): (r_e, r_v, r_r) = version else: # FIXME: This isn't always type(version) is types.NoneType: # ...not sure what it is though, come back to this r_e = r_v = r_r = None deptup = (name, misc.share_data(flags), (misc.share_data(r_e), misc.share_data(r_v), misc.share_data(r_r))) return misc.share_data(deptup) def getProvides(self, name, flags=None, version=(None, None, None)): """searches the rpmdb for what provides the arguments returns a list of pkg objects of providing packages, possibly empty""" name = misc.share_data(name) deptup = self._genDeptup(name, flags, version) if deptup in self._get_pro_cache: return self._get_pro_cache[deptup] r_v = deptup[2][1] pkgs = self.searchProvides(name) result = { } for po in pkgs: if name[0] == '/' and r_v is None: result[po] = [(name, None, (None, None, None))] continue hits = po.matchingPrcos('provides', deptup) if hits: result[po] = hits self._get_pro_cache[deptup] = result return result def whatProvides(self, name, flags, version): # XXX deprecate? return [po.pkgtup for po in self.getProvides(name, flags, version)] def getRequires(self, name, flags=None, version=(None, None, None)): """searches the rpmdb for what provides the arguments returns a list of pkgtuples of providing packages, possibly empty""" name = misc.share_data(name) deptup = self._genDeptup(name, flags, version) if deptup in self._get_req_cache: return self._get_req_cache[deptup] r_v = deptup[2][1] pkgs = self.searchRequires(name) result = { } for po in pkgs: if name[0] == '/' and r_v is None: # file dep add all matches to the defSack result[po] = [(name, None, (None, None, None))] continue hits = po.matchingPrcos('requires', deptup) if hits: result[po] = hits self._get_req_cache[deptup] = result return result def whatRequires(self, name, flags, version): # XXX deprecate? return [po.pkgtup for po in self.getRequires(name, flags, version)] def return_running_packages(self): """returns a list of yum installed package objects which own a file that are currently running or in use.""" pkgs = {} for pid in misc.return_running_pids(): for fn in misc.get_open_files(pid): for pkg in self.searchFiles(fn): pkgs[pkg] = 1 return sorted(pkgs.keys()) def check_dependencies(self, pkgs=None): """ Checks for any missing dependencies. """ if pkgs is None: pkgs = self.returnPackages() providers = set() # Speedup, as usual :) problems = [] for pkg in sorted(pkgs): # The sort here is mainly for "UI" for rreq in pkg.strong_requires: if rreq[0].startswith('rpmlib'): continue if rreq in providers: continue (req, flags, ver) = rreq if self.getProvides(req, flags, ver): providers.add(rreq) continue flags = yum.depsolve.flags.get(flags, flags) missing = miscutils.formatRequire(req, ver, flags) prob = RPMDBProblemDependency(pkg, "requires", missing=missing) problems.append(prob) for creq in pkg.conflicts: if creq[0].startswith('rpmlib'): continue (req, flags, ver) = creq res = self.getProvides(req, flags, ver) # Filter this pkg out, as self conflicts are allowed. nres = {} for conflicting_po in res: if conflicting_po.pkgtup[0] == pkg.pkgtup[0] and conflicting_po.pkgtup[2:] == pkg.pkgtup[2:]: continue nres[conflicting_po] = res[conflicting_po] res = nres if not res: continue flags = yum.depsolve.flags.get(flags, flags) found = miscutils.formatRequire(req, ver, flags) prob = RPMDBProblemDependency(pkg, "conflicts", found=found, conflicts=res) problems.append(prob) # Note that obsoletes are checked separately, and are name only. return problems def _iter_two_pkgs(self, ignore_provides): last = None for pkg in sorted(self.returnPackages()): if pkg.name in ignore_provides: continue if ignore_provides.intersection(set(pkg.provides_names)): continue if last is None: last = pkg continue yield last, pkg last = pkg def check_duplicates(self, ignore_provides=[]): """ Checks for any "duplicate packages" (those with multiple versions installed), we ignore any packages with a provide in the passed provide list (this is how installonlyworks, so we do the same). """ ignore_provides = set(ignore_provides) problems = [] for last, pkg in self._iter_two_pkgs(ignore_provides): if pkg.name != last.name: continue if pkg.verEQ(last) and pkg != last: if arch.isMultiLibArch(pkg.arch) and last.arch != 'noarch': continue if arch.isMultiLibArch(last.arch) and pkg.arch != 'noarch': continue # More than one pkg, they aren't version equal, or aren't multiarch problems.append(RPMDBProblemDuplicate(pkg, duplicate=last)) return problems def check_obsoleted(self): """ Checks for any packages which are obsoleted by other packages. """ obsoleters = [] problems = [] for pkg in sorted(self.returnPackages()): if not pkg.obsoletes: continue obsoleters.append(pkg) for pkg in sorted(self.returnPackages()): for obspo in pkg.obsoletedBy(obsoleters): problems.append(RPMDBProblemObsoleted(pkg, obsoleter=obspo)) return problems def check_provides(self): """ For each package, check that a provides search for it's name (and everything it provides) finds it. """ problems = [] for pkg in sorted(self.returnPackages()): for provtup in pkg.provides: name, flags, version = provtup if pkg not in self.getProvides(name, flags, version): problems.append(RPMDBProblemProvides(pkg, provide=provtup)) break return problems def _sanitize(path): return path.replace('/', '').replace('~', '') class RPMDBAdditionalData(object): """class for access to the additional data not able to be stored in the rpmdb""" # dir: /var/lib/yum/yumdb/ # pkgs stored in name[0]/name[1]/pkgid-name-ver-rel-arch dirs # dirs have files per piece of info we're keeping # repoid, install reason, status, blah, (group installed for?), notes? def __init__(self, db_path='/var/lib/yum/yumdb', version_path=None): self.conf = misc.GenericHolder() self.conf.db_path = db_path self.conf.version_path = version_path self.conf.writable = False self._packages = {} # pkgid = dir if not os.path.exists(self.conf.db_path): try: _makedirs_no_umask(self.conf.db_path) self.conf.writable = True except (IOError, OSError), e: # some sort of useful thing here? A warning? pass else: if os.access(self.conf.db_path, os.W_OK): self.conf.writable = True # Don't call _load_all_package_paths to preload, as it's expensive # if the dirs. aren't in cache. self.yumdb_cache = {'attr' : {}} def _load_all_package_paths(self): # glob the path and get a dict of pkgs to their subdir glb = '%s/*/*/' % self.conf.db_path pkgdirs = glob.glob(glb) for d in pkgdirs: pkgid = os.path.basename(d).split('-')[0] self._packages[pkgid] = d def _get_dir_name(self, pkgtup, pkgid): if pkgid in self._packages: return self._packages[pkgid] (n, a, e, v,r) = pkgtup n = _sanitize(n) # Please die in a fire rpmbuild thisdir = '%s/%s/%s-%s-%s-%s-%s' % (self.conf.db_path, n[0], pkgid, n, v, r, a) self._packages[pkgid] = thisdir return thisdir def get_package(self, po=None, pkgtup=None, pkgid=None): """Return an RPMDBAdditionalDataPackage Object for this package""" if po: thisdir = self._get_dir_name(po.pkgtup, po.pkgid) elif pkgtup and pkgid: thisdir = self._get_dir_name(pkgtup, pkgid) else: raise ValueError,"Pass something to RPMDBAdditionalData.get_package" return RPMDBAdditionalDataPackage(self.conf, thisdir, yumdb_cache=self.yumdb_cache) def sync_with_rpmdb(self, rpmdbobj): """populate out the dirs and remove all the items no longer in the rpmd and/or populate various bits to the currently installed version""" # TODO: # get list of all items in the yumdb # remove any no longer in the rpmdb/andor migrate them up to the currently # installed version # add entries for items in the rpmdb if they don't exist in the yumdb pass def _validate_from_repo(value): if value and value[0] == '/': # Local package; chop the slash as it's not a valid repoid char value = value[1:] return misc.validate_repoid(value) is None class RPMDBAdditionalDataPackage(object): # We do auto hardlink on these attributes _auto_hardlink_attrs = set(['checksum_type', 'reason', 'installed_by', 'changed_by', 'from_repo', 'from_repo_revision', 'from_repo_timestamp', 'releasever', 'group_member', 'command_line']) # Validate these attributes when they are read from a file _validators = { # Fixes BZ 1234967 'from_repo': _validate_from_repo, } def __init__(self, conf, pkgdir, yumdb_cache=None): self._conf = conf self._mydir = pkgdir self._read_cached_data = {} # 'from_repo' is the most often requested piece of data, and is often # the same for a huge number of packages. So we use hardlinks to share # data, and try to optimize for that. # It's useful for other keys too (installed_by/changed_by/reason/etc.) # so we make it generic. self._yumdb_cache = yumdb_cache def _auto_cache(self, attr, value, fn, info=None): """ Create caches for the attr. We have a per. object read cache so at worst we only have to read a single attr once. Then we expand that with (dev, ino) cache, so hardlink data can be read once for multiple packages. """ self._read_cached_data[attr] = value if self._yumdb_cache is None: return nlinks = 1 if info is not None: nlinks = info.st_nlink if nlinks <= 1 and attr not in self._auto_hardlink_attrs: return if value in self._yumdb_cache['attr']: sinfo = self._yumdb_cache['attr'][value][1] if info is not None and sinfo is not None: if (info.st_dev, info.st_ino) == (sinfo.st_dev, sinfo.st_ino): self._yumdb_cache['attr'][value][2].add(fn) self._yumdb_cache[fn] = value return if self._yumdb_cache['attr'][value][0] >= nlinks: # We already have a better cache file. return self._yumdb_cache['attr'][value] = (nlinks, info, set([fn])) self._yumdb_cache[fn] = value def _unlink_yumdb_cache(self, fn): """ Remove old values from the link cache. """ if fn in self._yumdb_cache: ovalue = self._yumdb_cache[fn] if ovalue in self._yumdb_cache['attr']: self._yumdb_cache['attr'][ovalue][2].discard(fn) if not self._yumdb_cache['attr'][ovalue][2]: del self._yumdb_cache['attr'][ovalue] del self._yumdb_cache[fn] def _link_yumdb_cache(self, fn, value): """ If we have a matching yumdb cache, link() to it instead of having to open()+write(). """ if self._yumdb_cache is None: return False self._unlink_yumdb_cache(fn) if value not in self._yumdb_cache['attr']: return False assert self._yumdb_cache['attr'][value][2] try: lfn = iter(self._yumdb_cache['attr'][value][2]).next() misc.unlink_f(fn + '.tmp') os.link(lfn, fn + '.tmp') os.rename(fn + '.tmp', fn) except: return False self._yumdb_cache['attr'][value][2].add(fn) self._yumdb_cache[fn] = value return True def _attr2fn(self, attr): """ Given an attribute, return the filename. """ return os.path.normpath(self._mydir + '/' + attr) def _write(self, attr, value): # check for self._conf.writable before going on? if not os.path.exists(self._mydir): _makedirs_no_umask(self._mydir) attr = _sanitize(attr) if attr in self._read_cached_data: del self._read_cached_data[attr] fn = self._attr2fn(attr) if attr.endswith('.tmp'): raise AttributeError, "Cannot set attribute %s on %s" % (attr, self) # These two are special, as they have an index and are used as our # cache-breaker. if attr in ('checksum_type', 'checksum_data'): misc.unlink_f(self._conf.version_path) # Auto hardlink some of the attrs... if self._link_yumdb_cache(fn, value): return # Default write()+rename()... hardlink -c can still help. misc.unlink_f(fn + '.tmp') fo = _open_no_umask(fn + '.tmp', 'w') try: fo.write(value) except (OSError, IOError), e: raise AttributeError, "Cannot set attribute %s on %s" % (attr, self) fo.flush() fo.close() del fo os.rename(fn + '.tmp', fn) # even works on ext4 now!:o self._auto_cache(attr, value, fn) def _read(self, attr): attr = _sanitize(attr) if attr in self._read_cached_data: return self._read_cached_data[attr] fn = self._attr2fn(attr) if attr.endswith('.tmp'): raise AttributeError, "%s has no attribute %s" % (self, attr) info = misc.stat_f(fn, ignore_EACCES=True) if info is None: raise AttributeError, "%s has no attribute %s" % (self, attr) if info.st_nlink > 1 and self._yumdb_cache is not None: key = (info.st_dev, info.st_ino) if key in self._yumdb_cache: self._auto_cache(attr, self._yumdb_cache[key], fn, info) return self._read_cached_data[attr] fo, e = _iopen(fn) if fo is None: # This really sucks, don't do that. return '<E:%d>' % e.errno value = fo.read() fo.close() del fo # Validate the attribute we just read from the file. Some attributes # may require being in a specific format and we can't guarantee the # file has not been tampered with outside of yum. if attr in self._validators: valid = self._validators[attr] if not valid(value): raise AttributeError, \ "Invalid value of attribute %s on %s" % (attr, self) if info.st_nlink > 1 and self._yumdb_cache is not None: self._yumdb_cache[key] = value self._auto_cache(attr, value, fn, info) return value def _delete(self, attr): """remove the attribute file""" attr = _sanitize(attr) fn = self._attr2fn(attr) if attr in self._read_cached_data: del self._read_cached_data[attr] self._unlink_yumdb_cache(fn) if os.path.exists(fn): try: os.unlink(fn) except (IOError, OSError): raise AttributeError, "Cannot delete attribute %s on %s " % (attr, self) def __getattr__(self, attr): return self._read(attr) def __setattr__(self, attr, value): if not attr.startswith('_'): self._write(attr, value) else: object.__setattr__(self, attr, value) def __delattr__(self, attr): if not attr.startswith('_'): self._delete(attr) else: object.__delattr__(self, attr) def __contains__(self, attr): # This is faster than __iter__ and it makes things fail in a much more # obvious way in weird FS corruption cases like: BZ 593436 x = self.get(attr) return x is not None def __iter__(self, show_hidden=False): for item in self._read_cached_data: yield item for item in glob.glob(self._mydir + '/*'): item = item[(len(self._mydir) + 1):] if item in self._read_cached_data: continue if not show_hidden and item.endswith('.tmp'): continue yield item def clean(self): # purge out everything for item in self.__iter__(show_hidden=True): self._delete(item) try: os.rmdir(self._mydir) except OSError: pass # def __dir__(self): # for 2.6 and beyond, apparently # return list(self.__iter__()) + self.__dict__.keys() def get(self, attr, default=None): """retrieve an add'l data obj""" try: res = self._read(attr) except AttributeError: return default return res def main(): sack = RPMDBPackageSack('/') for p in sack.simplePkgList(): print p if __name__ == '__main__': main()