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#! /usr/bin/python -tt """ Assorted utility functions for yum. """ import types import os import sys import os.path from cStringIO import StringIO import base64 import binascii import struct import re import errno import Errors import constants import pgpmsg import tempfile import glob import pwd import fnmatch import bz2 import gzip import shutil import urllib import string _available_compression = ['gz', 'bz2'] try: import lzma _available_compression.append('xz') except ImportError: lzma = None from rpmUtils.miscutils import stringToVersion, flagToString from stat import * try: import gpgme import gpgme.editutil except ImportError: gpgme = None try: import hashlib _available_checksums = set(['md5', 'sha1', 'sha256', 'sha384', 'sha512']) except ImportError: # Python-2.4.z ... gah! import sha import md5 _available_checksums = set(['md5', 'sha1']) class hashlib: @staticmethod def new(algo): if algo == 'md5': return md5.new() if algo == 'sha1': return sha.new() raise ValueError, "Bad checksum type" # some checksum types might be disabled _fips_noncompliant = set() for ctype in list(_available_checksums): try: hashlib.new(ctype) except Exception as e: # Print an error unless this is due to FIPS mode (in which case it's # not really an error and we don't want to pollute the output # needlessly; if someone actually tries to instantiate a Checksum with # a FIPS non-compliant ctype, we'll raise an explanatory exception # anyway). if isinstance(e, ValueError) and str(e).endswith('disabled for fips'): _fips_noncompliant.add(ctype) else: print >> sys.stderr, 'Checksum type %s disabled' % repr(ctype) _available_checksums.remove(ctype) for ctype in 'sha256', 'sha1': if ctype in _available_checksums: _default_checksums = [ctype] break else: raise ImportError, 'broken hashlib' from Errors import MiscError, FIPSNonCompliantError # These are API things, so we can't remove them even if they aren't used here. # pylint: disable-msg=W0611 from i18n import to_utf8, to_unicode # pylint: enable-msg=W0611 _share_data_store = {} _share_data_store_u = {} def share_data(value): """ Take a value and use the same value from the store, if the value isn't in the store this one becomes the shared version. """ # We don't want to change the types of strings, between str <=> unicode # and hash('a') == hash(u'a') ... so use different stores. # In theory eventaully we'll have all of one type, but don't hold breath. store = _share_data_store if isinstance(value, unicode): store = _share_data_store_u # hahahah, of course the above means that: # hash(('a', 'b')) == hash((u'a', u'b')) # ...which we have in deptuples, so just screw sharing those atm. if type(value) == types.TupleType: return value return store.setdefault(value, value) def unshare_data(): global _share_data_store global _share_data_store_u _share_data_store = {} _share_data_store_u = {} _re_compiled_glob_match = None def re_glob(s): """ Tests if a string is a shell wildcard. """ # TODO/FIXME maybe consider checking if it is a stringsType before going on - otherwise # returning None global _re_compiled_glob_match if _re_compiled_glob_match is None: _re_compiled_glob_match = re.compile('[*?]|\[.+\]').search return _re_compiled_glob_match(s) def compile_pattern(pat, ignore_case=False): """ Compile shell wildcards, return a 'match' function. """ if re_glob(pat): try: flags = ignore_case and re.I or 0 return re.compile(fnmatch.translate(pat), flags).match except re.error: pass # fall back to exact match if ignore_case: pat = pat.lower() return lambda s: s.lower() == pat return lambda s: s == pat _re_compiled_filename_match = None def re_filename(s): """ Tests if a string could be a filename. We still get negated character classes wrong (are they supported), and ranges in character classes. """ global _re_compiled_filename_match if _re_compiled_filename_match is None: _re_compiled_filename_match = re.compile('[/*?]|\[[^]]*/[^]]*\]').match return _re_compiled_filename_match(s) def re_primary_filename(filename): """ Tests if a filename string, can be matched against just primary. Note that this can produce false negatives (Eg. /b?n/zsh) but not false positives (because the former is a perf hit, and the later is a failure). Note that this is a superset of re_primary_dirname(). """ if re_primary_dirname(filename): return True if filename == '/usr/lib/sendmail': return True return False def re_primary_dirname(dirname): """ Tests if a dirname string, can be matched against just primary. Note that this is a subset of re_primary_filename(). """ if 'bin/' in dirname: return True if dirname.startswith('/etc/'): return True return False _re_compiled_full_match = None def re_full_search_needed(s): """ Tests if a string needs a full nevra match, instead of just name. """ global _re_compiled_full_match if _re_compiled_full_match is None: # A glob, or a "." or "-" separator, followed by something (the ".") one = re.compile('.*([-.*?]|\[.+\]).').match # Any epoch, for envra two = re.compile('[0-9]+:').match _re_compiled_full_match = (one, two) for rec in _re_compiled_full_match: if rec(s): return True return False def re_remote_url(s): """ Tests if a string is a "remote" URL, http, https, ftp. """ s = s.lower() if s.startswith("http://"): return True if s.startswith("https://"): return True if s.startswith("ftp://"): return True return False ########### # Title: Remove duplicates from a sequence # Submitter: Tim Peters # From: http://aspn.activestate.com/ASPN/Cookbook/Python/Recipe/52560 def unique(s): """Return a list of the elements in s, but without duplicates. For example, unique([1,2,3,1,2,3]) is some permutation of [1,2,3], unique("abcabc") some permutation of ["a", "b", "c"], and unique(([1, 2], [2, 3], [1, 2])) some permutation of [[2, 3], [1, 2]]. For best speed, all sequence elements should be hashable. Then unique() will usually work in linear time. If not possible, the sequence elements should enjoy a total ordering, and if list(s).sort() doesn't raise TypeError it's assumed that they do enjoy a total ordering. Then unique() will usually work in O(N*log2(N)) time. If that's not possible either, the sequence elements must support equality-testing. Then unique() will usually work in quadratic time. """ n = len(s) if n == 0: return [] # Try using a set first, as that's the fastest and will usually # work. If it doesn't work, it will usually fail quickly, so it # usually doesn't cost much to *try* it. It requires that all the # sequence elements be hashable, and support equality comparison. try: u = set(s) except TypeError: pass else: return list(u) # We can't hash all the elements. Second fastest is to sort, # which brings the equal elements together; then duplicates are # easy to weed out in a single pass. # NOTE: Python's list.sort() was designed to be efficient in the # presence of many duplicate elements. This isn't true of all # sort functions in all languages or libraries, so this approach # is more effective in Python than it may be elsewhere. try: t = list(s) t.sort() except TypeError: del t # move on to the next method else: assert n > 0 last = t[0] lasti = i = 1 while i < n: if t[i] != last: t[lasti] = last = t[i] lasti += 1 i += 1 return t[:lasti] # Brute force is all that's left. u = [] for x in s: if x not in u: u.append(x) return u class Checksums: """ Generate checksum(s), on given pieces of data. Producing the Length and the result(s) when complete. """ def __init__(self, checksums=None, ignore_missing=False, ignore_none=False): if checksums is None: checksums = _default_checksums self._sumalgos = [] self._sumtypes = [] self._len = 0 done = set() for sumtype in checksums: if sumtype == 'sha': sumtype = 'sha1' if sumtype in done: continue if sumtype in _available_checksums: sumalgo = hashlib.new(sumtype) elif ignore_missing: continue elif sumtype in _fips_noncompliant: raise FIPSNonCompliantError(sumtype) else: raise MiscError, 'Error Checksumming, bad checksum type %s' % sumtype done.add(sumtype) self._sumtypes.append(sumtype) self._sumalgos.append(sumalgo) if not done and not ignore_none: raise MiscError, 'Error Checksumming, no valid checksum type' def __len__(self): return self._len # Note that len(x) is assert limited to INT_MAX, which is 2GB on i686. length = property(fget=lambda self: self._len) def update(self, data): self._len += len(data) for sumalgo in self._sumalgos: sumalgo.update(data) def read(self, fo, size=2**16): data = fo.read(size) self.update(data) return data def hexdigests(self): ret = {} for sumtype, sumdata in zip(self._sumtypes, self._sumalgos): ret[sumtype] = sumdata.hexdigest() return ret def hexdigest(self, checksum=None): if checksum is None: if not self._sumtypes: return None checksum = self._sumtypes[0] if checksum == 'sha': checksum = 'sha1' return self.hexdigests()[checksum] def digests(self): ret = {} for sumtype, sumdata in zip(self._sumtypes, self._sumalgos): ret[sumtype] = sumdata.digest() return ret def digest(self, checksum=None): if checksum is None: if not self._sumtypes: return None checksum = self._sumtypes[0] if checksum == 'sha': checksum = 'sha1' return self.digests()[checksum] class AutoFileChecksums: """ Generate checksum(s), on given file/fileobject. Pretending to be a file object (overrrides read). """ def __init__(self, fo, checksums, ignore_missing=False, ignore_none=False): self._fo = fo self.checksums = Checksums(checksums, ignore_missing, ignore_none) def __getattr__(self, attr): return getattr(self._fo, attr) def read(self, size=-1): return self.checksums.read(self._fo, size) def checksum(sumtype, file, CHUNK=2**16, datasize=None): """takes filename, hand back Checksum of it sumtype = md5 or sha/sha1/sha256/sha512 (note sha == sha1) filename = /path/to/file CHUNK=65536 by default""" # chunking brazenly lifted from Ryan Tomayko try: if type(file) not in types.StringTypes: fo = file # assume it's a file-like-object else: fo = open(file, 'r') data = Checksums([sumtype]) while data.read(fo, CHUNK): if datasize is not None and data.length > datasize: break if type(file) is types.StringType: fo.close() # This screws up the length, but that shouldn't matter. We only care # if this checksum == what we expect. if datasize is not None and datasize != data.length: return '!%u!%s' % (datasize, data.hexdigest(sumtype)) return data.hexdigest(sumtype) except (IOError, OSError), e: raise MiscError, 'Error opening file for checksum: %s' % file def getFileList(path, ext, filelist): """Return all files in path matching ext, store them in filelist, recurse dirs return list object""" extlen = len(ext) try: dir_list = os.listdir(path) except OSError, e: raise MiscError, ('Error accessing directory %s, %s') % (path, e) for d in dir_list: if os.path.isdir(path + '/' + d): filelist = getFileList(path + '/' + d, ext, filelist) else: if not ext or d[-extlen:].lower() == '%s' % (ext): newpath = os.path.normpath(path + '/' + d) filelist.append(newpath) return filelist class GenericHolder: """Generic Holder class used to hold other objects of known types It exists purely to be able to do object.somestuff, object.someotherstuff or object[key] and pass object to another function that will understand it""" def __init__(self, iter=None): self.__iter = iter def __iter__(self): if self.__iter is not None: return iter(self[self.__iter]) def __getitem__(self, item): if hasattr(self, item): return getattr(self, item) else: raise KeyError, item def procgpgkey(rawkey): '''Convert ASCII armoured GPG key to binary ''' # TODO: CRC checking? (will RPM do this anyway?) # Normalise newlines rawkey = re.sub('\r\n?', '\n', rawkey) # Extract block block = StringIO() inblock = 0 pastheaders = 0 for line in rawkey.split('\n'): if line.startswith('-----BEGIN PGP PUBLIC KEY BLOCK-----'): inblock = 1 elif inblock and line.strip() == '': pastheaders = 1 elif inblock and line.startswith('-----END PGP PUBLIC KEY BLOCK-----'): # Hit the end of the block, get out break elif pastheaders and line.startswith('='): # Hit the CRC line, don't include this and stop break elif pastheaders: block.write(line+'\n') # Decode and return return base64.decodestring(block.getvalue()) def gpgkey_fingerprint_ascii(info, chop=4): ''' Given a key_info data from getgpgkeyinfo(), return an ascii fingerprint. Chop every 4 ascii values, as that is what GPG does. ''' # First "duh" ... it's a method... fp = info['fingerprint']() fp = binascii.hexlify(fp) if chop: fp = [fp[i:i+chop] for i in range(0, len(fp), chop)] fp = " ".join(fp) return fp def getgpgkeyinfo(rawkey, multiple=False): '''Return a dict of info for the given ASCII armoured key text Returned dict will have the following keys: 'userid', 'keyid', 'timestamp' Will raise ValueError if there was a problem decoding the key. ''' # Catch all exceptions as there can be quite a variety raised by this call key_info_objs = [] try: keys = pgpmsg.decode_multiple_keys(rawkey) except Exception, e: raise ValueError(str(e)) if len(keys) == 0: raise ValueError('No key found in given key data') for key in keys: keyid_blob = key.public_key.key_id() info = { 'userid': key.user_id, 'keyid': struct.unpack('>Q', keyid_blob)[0], 'timestamp': key.public_key.timestamp, 'fingerprint' : key.public_key.fingerprint, 'raw_key' : key.raw_key, 'has_sig' : False, 'valid_sig': False, } # Retrieve the timestamp from the matching signature packet # (this is what RPM appears to do) for userid in key.user_ids[0]: if not isinstance(userid, pgpmsg.signature): continue if userid.key_id() == keyid_blob: # Get the creation time sub-packet if available if hasattr(userid, 'hashed_subpaks'): tspkt = \ userid.get_hashed_subpak(pgpmsg.SIG_SUB_TYPE_CREATE_TIME) if tspkt != None: info['timestamp'] = int(tspkt[1]) break key_info_objs.append(info) if multiple: return key_info_objs else: return key_info_objs[0] def keyIdToRPMVer(keyid): '''Convert an integer representing a GPG key ID to the hex version string used by RPM ''' return "%08x" % (keyid & 0xffffffffL) def keyInstalled(ts, keyid, timestamp): ''' Return if the GPG key described by the given keyid and timestamp are installed in the rpmdb. The keyid and timestamp should both be passed as integers. The ts is an rpm transaction set object Return values: - -1 key is not installed - 0 key with matching ID and timestamp is installed - 1 key with matching ID is installed but has a older timestamp - 2 key with matching ID is installed but has a newer timestamp No effort is made to handle duplicates. The first matching keyid is used to calculate the return result. ''' # Convert key id to 'RPM' form keyid = keyIdToRPMVer(keyid) # Search for hdr in ts.dbMatch('name', 'gpg-pubkey'): if hdr['version'] == keyid: installedts = int(hdr['release'], 16) if installedts == timestamp: return 0 elif installedts < timestamp: return 1 else: return 2 return -1 def import_key_to_pubring(rawkey, keyid, cachedir=None, gpgdir=None, make_ro_copy=True): # FIXME - cachedir can be removed from this method when we break api if gpgme is None: return False if not gpgdir: gpgdir = '%s/gpgdir' % cachedir if not os.path.exists(gpgdir): os.makedirs(gpgdir) key_fo = StringIO(rawkey) os.environ['GNUPGHOME'] = gpgdir # import the key ctx = gpgme.Context() fp = open(os.path.join(gpgdir, 'gpg.conf'), 'wb') fp.write('') fp.close() ctx.import_(key_fo) key_fo.close() # ultimately trust the key or pygpgme is definitionally stupid k = ctx.get_key(keyid) gpgme.editutil.edit_trust(ctx, k, gpgme.VALIDITY_ULTIMATE) if make_ro_copy: rodir = gpgdir + '-ro' if not os.path.exists(rodir): os.makedirs(rodir, mode=0755) for f in glob.glob(gpgdir + '/*'): basename = os.path.basename(f) ro_f = rodir + '/' + basename shutil.copy(f, ro_f) os.chmod(ro_f, 0755) fp = open(rodir + '/gpg.conf', 'w', 0755) # yes it is this stupid, why do you ask? opts="""lock-never no-auto-check-trustdb trust-model direct no-expensive-trust-checks no-permission-warning preserve-permissions """ fp.write(opts) fp.close() return True def return_keyids_from_pubring(gpgdir): if gpgme is None or not os.path.exists(gpgdir): return [] os.environ['GNUPGHOME'] = gpgdir ctx = gpgme.Context() keyids = [] for k in ctx.keylist(): for subkey in k.subkeys: if subkey.can_sign: keyids.append(subkey.keyid) return keyids def valid_detached_sig(sig_file, signed_file, gpghome=None): """takes signature , file that was signed and an optional gpghomedir""" if gpgme is None: return False if gpghome: if not os.path.exists(gpghome): return False os.environ['GNUPGHOME'] = gpghome if hasattr(sig_file, 'read'): sig = sig_file else: sig = open(sig_file, 'r') if hasattr(signed_file, 'read'): signed_text = signed_file else: signed_text = open(signed_file, 'r') plaintext = None ctx = gpgme.Context() try: sigs = ctx.verify(sig, signed_text, plaintext) except gpgme.GpgmeError, e: return False else: if not sigs: return False # is there ever a case where we care about a sig beyond the first one? thissig = sigs[0] if not thissig: return False if thissig.validity in (gpgme.VALIDITY_FULL, gpgme.VALIDITY_MARGINAL, gpgme.VALIDITY_ULTIMATE): return True return False def getCacheDir(tmpdir='/var/tmp', reuse=True, prefix='yum-'): """return a path to a valid and safe cachedir - only used when not running as root or when --tempcache is set""" uid = os.geteuid() try: usertup = pwd.getpwuid(uid) username = usertup[0] # we prefer ascii-only paths username = urllib.quote(username) except KeyError: return None # if it returns None then, well, it's bollocksed if reuse: # check for /var/tmp/yum-username-* - prefix = '%s%s-' % (prefix, username) dirpath = '%s/%s*' % (tmpdir, prefix) cachedirs = sorted(glob.glob(dirpath)) for thisdir in cachedirs: stats = os.lstat(thisdir) if S_ISDIR(stats[0]) and S_IMODE(stats[0]) == 448 and stats[4] == uid: return thisdir # make the dir (tempfile.mkdtemp()) cachedir = tempfile.mkdtemp(prefix=prefix, dir=tmpdir) return cachedir def sortPkgObj(pkg1 ,pkg2): """sorts a list of yum package objects by name""" if pkg1.name > pkg2.name: return 1 elif pkg1.name == pkg2.name: return 0 else: return -1 def newestInList(pkgs): """ Return the newest in the list of packages. """ ret = [ pkgs.pop() ] newest = ret[0] for pkg in pkgs: if pkg.verGT(newest): ret = [ pkg ] newest = pkg elif pkg.verEQ(newest): ret.append(pkg) return ret def version_tuple_to_string(evrTuple): """ Convert a tuple representing a package version to a string. @param evrTuple: A 3-tuple of epoch, version, and release. Return the string representation of evrTuple. """ (e, v, r) = evrTuple s = "" if e not in [0, '0', None]: s += '%s:' % e if v is not None: s += '%s' % v if r is not None: s += '-%s' % r return s def prco_tuple_to_string(prcoTuple): """returns a text string of the prco from the tuple format""" (name, flag, evr) = prcoTuple flags = {'GT':'>', 'GE':'>=', 'EQ':'=', 'LT':'<', 'LE':'<='} if flag is None: return name return '%s %s %s' % (name, flags[flag], version_tuple_to_string(evr)) def string_to_prco_tuple(prcoString): """returns a prco tuple (name, flags, (e, v, r)) for a string""" if type(prcoString) == types.TupleType: (n, f, v) = prcoString else: n = prcoString f = v = None # We love GPG keys as packages, esp. awesome provides like: # gpg(Fedora (13) <fedora@fedoraproject.org>) if n[0] != '/' and not n.startswith("gpg("): # not a file dep - look at it for being versioned prco_split = n.split() if len(prco_split) == 3: n, f, v = prco_split # now we have 'n, f, v' where f and v could be None and None if f is not None and f not in constants.LETTERFLAGS: if f not in constants.SYMBOLFLAGS: try: f = flagToString(int(f)) except (ValueError,TypeError), e: raise Errors.MiscError, 'Invalid version flag: %s' % f else: f = constants.SYMBOLFLAGS[f] if type(v) in (types.StringType, types.NoneType, types.UnicodeType): (prco_e, prco_v, prco_r) = stringToVersion(v) elif type(v) in (types.TupleType, types.ListType): (prco_e, prco_v, prco_r) = v #now we have (n, f, (e, v, r)) for the thing specified return (n, f, (prco_e, prco_v, prco_r)) def refineSearchPattern(arg): """Takes a search string from the cli for Search or Provides and cleans it up so it doesn't make us vomit""" if re.search('[*{}?+]|\[.+\]', arg): restring = fnmatch.translate(arg) else: restring = re.escape(arg) return restring def _decompress_chunked(source, dest, ztype): if ztype not in _available_compression: msg = "%s compression not available" % ztype raise Errors.MiscError, msg if ztype == 'bz2': s_fn = bz2.BZ2File(source, 'r') elif ztype == 'xz': s_fn = lzma.LZMAFile(source, 'r') elif ztype == 'gz': s_fn = gzip.GzipFile(source, 'r') destination = open(dest, 'w') while True: try: data = s_fn.read(1024000) except (OSError, IOError, EOFError), e: msg = "Error reading from file %s: %s" % (source, str(e)) raise Errors.MiscError, msg if not data: break try: destination.write(data) except (OSError, IOError), e: msg = "Error writing to file %s: %s" % (dest, str(e)) raise Errors.MiscError, msg destination.close() s_fn.close() def bunzipFile(source,dest): """ Extract the bzipped contents of source to dest. """ _decompress_chunked(source, dest, ztype='bz2') def get_running_kernel_pkgtup(ts): """This takes the output of uname and figures out the pkgtup of the running kernel (name, arch, epoch, version, release).""" ver = os.uname()[2] # we glob for the file that MIGHT have this kernel # and then look up the file in our rpmdb. fns = sorted(glob.glob('/boot/vmlinuz*%s*' % ver)) for fn in fns: mi = ts.dbMatch('basenames', fn) for h in mi: e = h['epoch'] if h['epoch'] is None: e = '0' else: e = str(e) return (h['name'], h['arch'], e, h['version'], h['release']) return (None, None, None, None, None) def get_running_kernel_version_release(ts): """This takes the output of uname and figures out the (version, release) tuple for the running kernel.""" pkgtup = get_running_kernel_pkgtup(ts) if pkgtup[0] is not None: return (pkgtup[3], pkgtup[4]) return (None, None) def find_unfinished_transactions(yumlibpath='/var/lib/yum'): """returns a list of the timestamps from the filenames of the unfinished transactions remaining in the yumlibpath specified. """ timestamps = [] tsallg = '%s/%s' % (yumlibpath, 'transaction-all*') tsdoneg = '%s/%s' % (yumlibpath, 'transaction-done*') tsalls = glob.glob(tsallg) tsdones = glob.glob(tsdoneg) for fn in tsalls: if fn.endswith('disabled'): continue trans = os.path.basename(fn) timestamp = trans.replace('transaction-all.','') timestamps.append(timestamp) timestamps.sort() return timestamps def find_ts_remaining(timestamp, yumlibpath='/var/lib/yum'): """this function takes the timestamp of the transaction to look at and the path to the yum lib dir (defaults to /var/lib/yum) returns a list of tuples(action, pkgspec) for the unfinished transaction elements. Returns an empty list if none. """ to_complete_items = [] tsallpath = '%s/%s.%s' % (yumlibpath, 'transaction-all', timestamp) tsdonepath = '%s/%s.%s' % (yumlibpath,'transaction-done', timestamp) tsdone_items = [] if not os.path.exists(tsallpath): # something is wrong, here, probably need to raise _something_ return to_complete_items if os.path.exists(tsdonepath): tsdone_fo = open(tsdonepath, 'r') tsdone_items = tsdone_fo.readlines() tsdone_fo.close() tsall_fo = open(tsallpath, 'r') tsall_items = tsall_fo.readlines() tsall_fo.close() for item in tsdone_items: # this probably shouldn't happen but it's worth catching anyway if item not in tsall_items: continue tsall_items.remove(item) for item in tsall_items: item = item.replace('\n', '') if item == '': continue try: (action, pkgspec) = item.split() except ValueError, e: msg = "Transaction journal file %s is corrupt." % (tsallpath) raise Errors.MiscError, msg to_complete_items.append((action, pkgspec)) return to_complete_items def seq_max_split(seq, max_entries): """ Given a seq, split into a list of lists of length max_entries each. """ ret = [] num = len(seq) seq = list(seq) # Trying to use a set/etc. here is bad beg = 0 while num > max_entries: end = beg + max_entries ret.append(seq[beg:end]) beg += max_entries num -= max_entries ret.append(seq[beg:]) return ret _deletechars = ''.join(chr(i) for i in range(32) if i not in (9, 10, 13)) def to_xml(item, attrib=False): """ Returns xml-friendly utf-8 encoded string. Accepts utf-8, iso-8859-1, or unicode. """ if type(item) is str: # check if valid utf8 try: unicode(item, 'utf-8') except UnicodeDecodeError: # assume iso-8859-1 item = unicode(item, 'iso-8859-1').encode('utf-8') elif type(item) is unicode: item = item.encode('utf-8') elif item is None: return '' else: raise ValueError, 'String expected, got %s' % repr(item) # compat cruft... item = item.rstrip() # kill ivalid low bytes item = item.translate(None, _deletechars) # quote reserved XML characters item = item.replace('&', '&') item = item.replace('<', '<') item = item.replace('>', '>') if attrib: item = item.replace('"', '"') item = item.replace("'", ''') return item def unlink_f(filename): """ Call os.unlink, but don't die if the file isn't there. This is the main difference between "rm -f" and plain "rm". """ try: os.unlink(filename) except OSError, e: if e.errno not in (errno.ENOENT, errno.EPERM, errno.EACCES, errno.EROFS): raise def stat_f(filename, ignore_EACCES=False): """ Call os.stat(), but don't die if the file isn't there. Returns None. """ try: return os.stat(filename) except OSError, e: if e.errno in (errno.ENOENT, errno.ENOTDIR): return None if ignore_EACCES and e.errno == errno.EACCES: return None raise def _getloginuid(): """ Get the audit-uid/login-uid, if available. None is returned if there was a problem. Note that no caching is done here. """ # We might normally call audit.audit_getloginuid(), except that requires # importing all of the audit module. And it doesn't work anyway: BZ 518721 try: fo = open("/proc/self/loginuid") except IOError: return None data = fo.read() try: return int(data) except ValueError: return None _cached_getloginuid = None def getloginuid(): """ Get the audit-uid/login-uid, if available. None is returned if there was a problem. The value is cached, so you don't have to save it. """ global _cached_getloginuid if _cached_getloginuid is None: _cached_getloginuid = _getloginuid() return _cached_getloginuid # ---------- i18n ---------- import locale def setup_locale(override_codecs=True, override_time=False): # This test needs to be before locale.getpreferredencoding() as that # does setlocale(LC_CTYPE, "") try: locale.setlocale(locale.LC_ALL, '') # set time to C so that we output sane things in the logs (#433091) if override_time: locale.setlocale(locale.LC_TIME, 'C') except locale.Error, e: # default to C locale if we get a failure. print >> sys.stderr, 'Failed to set locale, defaulting to C' os.environ['LC_ALL'] = 'C' locale.setlocale(locale.LC_ALL, 'C') if override_codecs: class UnicodeStream: def __init__(self, stream, encoding): self.stream = stream self.encoding = encoding def write(self, s): if isinstance(s, unicode): s = s.encode(self.encoding, 'replace') self.stream.write(s) def __getattr__(self, name): return getattr(self.stream, name) sys.stdout = UnicodeStream(sys.stdout, locale.getpreferredencoding()) def get_my_lang_code(): try: mylang = locale.getlocale(locale.LC_MESSAGES) except ValueError, e: # This is RHEL-5 python crack, Eg. en_IN can't be parsed properly mylang = (None, None) if mylang == (None, None): # odd :) mylang = 'C' else: mylang = '.'.join(mylang) return mylang def return_running_pids(): """return list of running processids, excluding this one""" mypid = os.getpid() pids = [] for fn in glob.glob('/proc/[0123456789]*'): if mypid == os.path.basename(fn): continue pids.append(os.path.basename(fn)) return pids def get_open_files(pid): """returns files open from this pid""" files = [] maps_f = '/proc/%s/maps' % pid try: maps = open(maps_f, 'r') except (IOError, OSError), e: return files for line in maps: if line.find('fd:') == -1: continue line = line.replace('\n', '') slash = line.find('/') filename = line[slash:] filename = filename.replace('(deleted)', '') #only mildly retarded filename = filename.strip() if filename not in files: files.append(filename) cli_f = '/proc/%s/cmdline' % pid try: cli = open(cli_f, 'r') except (IOError, OSError), e: return files cmdline = cli.read() if cmdline.find('\00') != -1: cmds = cmdline.split('\00') for i in cmds: if i.startswith('/'): files.append(i) return files def get_uuid(savepath): """create, store and return a uuid. If a stored one exists, report that if it cannot be stored, return a random one""" if os.path.exists(savepath): return open(savepath, 'r').read() else: try: from uuid import uuid4 except ImportError: myid = open('/proc/sys/kernel/random/uuid', 'r').read() else: myid = str(uuid4()) try: sf = open(savepath, 'w') sf.write(myid) sf.flush() sf.close() except (IOError, OSError), e: pass return myid def decompress(filename, dest=None, fn_only=False, check_timestamps=False): """take a filename and decompress it into the same relative location. if the file is not compressed just return the file""" out = dest if not dest: out = filename if filename.endswith('.gz'): ztype='gz' if not dest: out = filename.replace('.gz', '') elif filename.endswith('.bz') or filename.endswith('.bz2'): ztype='bz2' if not dest: if filename.endswith('.bz'): out = filename.replace('.bz','') else: out = filename.replace('.bz2', '') elif filename.endswith('.xz'): ztype='xz' if not dest: out = filename.replace('.xz', '') else: return filename # returning the same file since it is not compressed if check_timestamps: fi = stat_f(filename) fo = stat_f(out) if fi and fo: # Eliminate sub second precision in mtime before comparison, # see http://bugs.python.org/issue14127 if int(fo.st_mtime) == int(fi.st_mtime): return out if fn_only: # out exists but not valid return None if not fn_only: try: _decompress_chunked(filename, out, ztype) if check_timestamps and fi: os.utime(out, (fi.st_mtime, fi.st_mtime)) except: unlink_f(out) raise return out def repo_gen_decompress(filename, generated_name, cached=False): """ This is a wrapper around decompress, where we work out a cached generated name, and use check_timestamps. filename _must_ be from a repo. and generated_name is the type of the file. """ dest = os.path.dirname(filename) + '/gen/' + generated_name try: return decompress(filename, dest=dest, check_timestamps=True) except (OSError, IOError), e: if cached and e.errno == errno.EACCES: return None raise def read_in_items_from_dot_dir(thisglob, line_as_list=True): """takes a glob of a dir (like /etc/foo.d/*.foo) returns a list of all the lines in all the files matching that glob, ignores comments and blank lines, optional paramater 'line_as_list tells whether to treat each line as a space or comma-separated list, defaults to True""" results = [] for fname in glob.glob(thisglob): for line in open(fname): if re.match('\s*(#|$)', line): continue line = line.rstrip() # no more trailing \n's line = line.lstrip() # be nice if not line: continue if line_as_list: line = line.replace('\n', ' ') line = line.replace(',', ' ') results.extend(line.split()) continue results.append(line) return results __cached_cElementTree = None def _cElementTree_import(): """ Importing xElementTree all the time, when we often don't need it, is a huge timesink. This makes python -c 'import yum' suck. So we hide it behind this function. And have accessors. """ global __cached_cElementTree if __cached_cElementTree is None: try: from xml.etree import cElementTree except ImportError: import cElementTree __cached_cElementTree = cElementTree def cElementTree_iterparse(filename): """ Lazily load/run: cElementTree.iterparse """ _cElementTree_import() return __cached_cElementTree.iterparse(filename) def cElementTree_xmlparse(filename): """ Lazily load/run: cElementTree.parse """ _cElementTree_import() return __cached_cElementTree.parse(filename) def filter_pkgs_repoid(pkgs, repoid): """ Given a list of packages, filter them for those "in" the repoid. uses from_repo for installed packages, used by repo-pkgs commands. """ if repoid is None: return pkgs ret = [] for pkg in pkgs: if pkg.repoid == 'installed': if 'from_repo' not in pkg.yumdb_info: continue if pkg.yumdb_info.from_repo != repoid: continue elif pkg.repoid != repoid: continue ret.append(pkg) return ret def validate_repoid(repoid): """Return the first invalid char found in the repoid, or None.""" allowed_chars = string.ascii_letters + string.digits + '-_.:' for char in repoid: if char not in allowed_chars: return char else: return None def disk_usage(path): """Return disk usage of the given filename, recursively for dirs.""" def usage(path): return os.stat(path).st_blocks * 512 total = usage(path) if not os.path.isdir(path): return total for root, dirs, files in os.walk(path): paths = (os.path.join(root, entry) for entry in dirs + files) total += sum(usage(path) for path in paths) return total