#!/usr/bin/python -O # Copyright 1999-2006 Gentoo Foundation # Distributed under the terms of the GNU General Public License v2 # $Id: emerge 5976 2007-02-17 09:14:53Z genone $ import sys # This block ensures that ^C interrupts are handled quietly. try: import signal def exithandler(signum,frame): signal.signal(signal.SIGINT, signal.SIG_IGN) signal.signal(signal.SIGTERM, signal.SIG_IGN) sys.exit(1) signal.signal(signal.SIGINT, exithandler) signal.signal(signal.SIGTERM, exithandler) signal.signal(signal.SIGPIPE, signal.SIG_DFL) except KeyboardInterrupt: sys.exit(1) import os, stat os.environ["PORTAGE_LEGACY_GLOBALS"] = "false" try: import portage except ImportError: from os import path as osp sys.path.insert(0, osp.join(osp.dirname(osp.dirname(osp.realpath(__file__))), "pym")) import portage del os.environ["PORTAGE_LEGACY_GLOBALS"] from portage import digraph, portdbapi from portage.const import NEWS_LIB_PATH, CACHE_PATH, PRIVATE_PATH, USER_CONFIG_PATH, GLOBAL_CONFIG_PATH import _emerge.help import portage.xpak, commands, errno, re, socket, time, types from portage.output import blue, bold, colorize, darkblue, darkgreen, darkred, green, \ havecolor, nc_len, nocolor, red, teal, turquoise, white, xtermTitle, \ xtermTitleReset, yellow from portage.output import create_color_func good = create_color_func("GOOD") bad = create_color_func("BAD") # white looks bad on terminals with white background from portage.output import bold as white import portage.dep portage.dep._dep_check_strict = True import portage.util import portage.locks import portage.exception from portage.data import secpass from portage.util import normalize_path as normpath from portage.util import writemsg from portage.sets import load_default_config, SETPREFIX from portage.sets.base import InternalPackageSet from itertools import chain, izip from UserDict import DictMixin try: import cPickle except ImportError: import pickle as cPickle class stdout_spinner(object): scroll_msgs = [ "Gentoo Rocks ("+os.uname()[0]+")", "Thank you for using Gentoo. :)", "Are you actually trying to read this?", "How many times have you stared at this?", "We are generating the cache right now", "You are paying too much attention.", "A theory is better than its explanation.", "Phasers locked on target, Captain.", "Thrashing is just virtual crashing.", "To be is to program.", "Real Users hate Real Programmers.", "When all else fails, read the instructions.", "Functionality breeds Contempt.", "The future lies ahead.", "3.1415926535897932384626433832795028841971694", "Sometimes insanity is the only alternative.", "Inaccuracy saves a world of explanation.", ] twirl_sequence = "/-\\|/-\\|/-\\|/-\\|\\-/|\\-/|\\-/|\\-/|" def __init__(self): self.spinpos = 0 self.update = self.update_twirl self.scroll_sequence = self.scroll_msgs[ int(time.time() * 100) % len(self.scroll_msgs)] self.last_update = 0 self.min_display_latency = 0.05 def _return_early(self): """ Flushing ouput to the tty too frequently wastes cpu time. Therefore, each update* method should return without doing any output when this method returns True. """ cur_time = time.time() if cur_time - self.last_update < self.min_display_latency: return True self.last_update = cur_time return False def update_basic(self): self.spinpos = (self.spinpos + 1) % 500 if self._return_early(): return if (self.spinpos % 100) == 0: if self.spinpos == 0: sys.stdout.write(". ") else: sys.stdout.write(".") sys.stdout.flush() def update_scroll(self): if self._return_early(): return if(self.spinpos >= len(self.scroll_sequence)): sys.stdout.write(darkgreen(" \b\b\b" + self.scroll_sequence[ len(self.scroll_sequence) - 1 - (self.spinpos % len(self.scroll_sequence))])) else: sys.stdout.write(green("\b " + self.scroll_sequence[self.spinpos])) sys.stdout.flush() self.spinpos = (self.spinpos + 1) % (2 * len(self.scroll_sequence)) def update_twirl(self): self.spinpos = (self.spinpos + 1) % len(self.twirl_sequence) if self._return_early(): return sys.stdout.write("\b\b " + self.twirl_sequence[self.spinpos]) sys.stdout.flush() def update_quiet(self): return def userquery(prompt, responses=None, colours=None): """Displays a prompt and a set of responses, then waits for a response which is checked against the responses and the first to match is returned. An empty response will match the first value in responses. The input buffer is *not* cleared prior to the prompt! prompt: a String. responses: a List of Strings. colours: a List of Functions taking and returning a String, used to process the responses for display. Typically these will be functions like red() but could be e.g. lambda x: "DisplayString". If responses is omitted, defaults to ["Yes", "No"], [green, red]. If only colours is omitted, defaults to [bold, ...]. Returns a member of the List responses. (If called without optional arguments, returns "Yes" or "No".) KeyboardInterrupt is converted to SystemExit to avoid tracebacks being printed.""" if responses is None: responses = ["Yes", "No"] colours = [ create_color_func("PROMPT_CHOICE_DEFAULT"), create_color_func("PROMPT_CHOICE_OTHER") ] elif colours is None: colours=[bold] colours=(colours*len(responses))[:len(responses)] print bold(prompt), try: while True: response=raw_input("["+"/".join([colours[i](responses[i]) for i in range(len(responses))])+"] ") for key in responses: # An empty response will match the first value in responses. if response.upper()==key[:len(response)].upper(): return key print "Sorry, response '%s' not understood." % response, except (EOFError, KeyboardInterrupt): print "Interrupted." sys.exit(1) actions=[ "clean", "config", "depclean", "info", "metadata", "prune", "regen", "search", "sync", "unmerge", ] options=[ "--ask", "--alphabetical", "--buildpkg", "--buildpkgonly", "--changelog", "--columns", "--complete-graph", "--debug", "--deep", "--digest", "--emptytree", "--fetchonly", "--fetch-all-uri", "--getbinpkg", "--getbinpkgonly", "--help", "--ignore-default-opts", "--noconfmem", "--newuse", "--nocolor", "--nodeps", "--noreplace", "--nospinner", "--oneshot", "--onlydeps", "--pretend", "--quiet", "--resume", "--searchdesc", "--selective", "--skipfirst", "--tree", "--update", "--usepkg", "--usepkgonly", "--verbose", "--version" ] shortmapping={ "1":"--oneshot", "a":"--ask", "b":"--buildpkg", "B":"--buildpkgonly", "c":"--clean", "C":"--unmerge", "d":"--debug", "D":"--deep", "e":"--emptytree", "f":"--fetchonly", "F":"--fetch-all-uri", "g":"--getbinpkg", "G":"--getbinpkgonly", "h":"--help", "k":"--usepkg", "K":"--usepkgonly", "l":"--changelog", "n":"--noreplace", "N":"--newuse", "o":"--onlydeps", "O":"--nodeps", "p":"--pretend", "P":"--prune", "q":"--quiet", "s":"--search", "S":"--searchdesc", "t":"--tree", "u":"--update", "v":"--verbose", "V":"--version" } def emergelog(xterm_titles, mystr, short_msg=None): if xterm_titles: if short_msg == None: short_msg = mystr if "HOSTNAME" in os.environ: short_msg = os.environ["HOSTNAME"]+": "+short_msg xtermTitle(short_msg) try: file_path = "/var/log/emerge.log" mylogfile = open(file_path, "a") portage.util.apply_secpass_permissions(file_path, uid=portage.portage_uid, gid=portage.portage_gid, mode=0660) mylock = None try: mylock = portage.locks.lockfile(mylogfile) # seek because we may have gotten held up by the lock. # if so, we may not be positioned at the end of the file. mylogfile.seek(0, 2) mylogfile.write(str(time.time())[:10]+": "+mystr+"\n") mylogfile.flush() finally: if mylock: portage.locks.unlockfile(mylock) mylogfile.close() except (IOError,OSError,portage.exception.PortageException), e: if secpass >= 1: print >> sys.stderr, "emergelog():",e def countdown(secs=5, doing="Starting"): if secs: print ">>> Waiting",secs,"seconds before starting..." print ">>> (Control-C to abort)...\n"+doing+" in: ", ticks=range(secs) ticks.reverse() for sec in ticks: sys.stdout.write(colorize("UNMERGE_WARN", str(sec+1)+" ")) sys.stdout.flush() time.sleep(1) print # formats a size given in bytes nicely def format_size(mysize): if type(mysize) not in [types.IntType,types.LongType]: return str(mysize) if 0 != mysize % 1024: # Always round up to the next kB so that it doesn't show 0 kB when # some small file still needs to be fetched. mysize += 1024 - mysize % 1024 mystr=str(mysize/1024) mycount=len(mystr) while (mycount > 3): mycount-=3 mystr=mystr[:mycount]+","+mystr[mycount:] return mystr+" kB" def getgccversion(chost): """ rtype: C{str} return: the current in-use gcc version """ gcc_ver_command = 'gcc -dumpversion' gcc_ver_prefix = 'gcc-' gcc_not_found_error = red( "!!! No gcc found. You probably need to 'source /etc/profile'\n" + "!!! to update the environment of this terminal and possibly\n" + "!!! other terminals also.\n" ) mystatus, myoutput = commands.getstatusoutput("eselect compiler show") if mystatus == os.EX_OK and len(myoutput.split("/")) == 2: part1, part2 = myoutput.split("/") if part1.startswith(chost + "-"): return myoutput.replace(chost + "-", gcc_ver_prefix, 1) mystatus, myoutput = commands.getstatusoutput("gcc-config -c") if mystatus == os.EX_OK and myoutput.startswith(chost + "-"): return myoutput.replace(chost + "-", gcc_ver_prefix, 1) mystatus, myoutput = commands.getstatusoutput( chost + "-" + gcc_ver_command) if mystatus == os.EX_OK: return gcc_ver_prefix + myoutput mystatus, myoutput = commands.getstatusoutput(gcc_ver_command) if mystatus == os.EX_OK: return gcc_ver_prefix + myoutput portage.writemsg(gcc_not_found_error, noiselevel=-1) return "[unavailable]" def getportageversion(portdir, target_root, profile, chost, vardb): profilever = "unavailable" if profile: realpath = os.path.realpath(profile) basepath = os.path.realpath(os.path.join(portdir, "profiles")) if realpath.startswith(basepath): profilever = realpath[1 + len(basepath):] else: try: profilever = "!" + os.readlink(profile) except (OSError): pass del realpath, basepath libcver=[] libclist = vardb.match("virtual/libc") libclist += vardb.match("virtual/glibc") libclist = portage.util.unique_array(libclist) for x in libclist: xs=portage.catpkgsplit(x) if libcver: libcver+=","+"-".join(xs[1:]) else: libcver="-".join(xs[1:]) if libcver==[]: libcver="unavailable" gccver = getgccversion(chost) unameout=os.uname()[2]+" "+os.uname()[4] return "Portage " + portage.VERSION +" ("+profilever+", "+gccver+", "+libcver+", "+unameout+")" def create_depgraph_params(myopts, myaction): #configure emerge engine parameters # # self: include _this_ package regardless of if it is merged. # selective: exclude the package if it is merged # recurse: go into the dependencies # deep: go into the dependencies of already merged packages # empty: pretend nothing is merged # complete: completely account for all known dependencies myparams = set(["recurse"]) if "--update" in myopts or \ "--newuse" in myopts or \ "--reinstall" in myopts or \ "--noreplace" in myopts: myparams.add("selective") if "--emptytree" in myopts: myparams.add("empty") myparams.discard("selective") if "--nodeps" in myopts: myparams.discard("recurse") if "--deep" in myopts: myparams.add("deep") if "--complete-graph" in myopts: myparams.add("complete") return myparams # search functionality class search(object): # # class constants # VERSION_SHORT=1 VERSION_RELEASE=2 # # public interface # def __init__(self, root_config, spinner, searchdesc, verbose, usepkg, usepkgonly): """Searches the available and installed packages for the supplied search key. The list of available and installed packages is created at object instantiation. This makes successive searches faster.""" self.settings = root_config.settings self.vartree = root_config.trees["vartree"] self.spinner = spinner self.verbose = verbose self.searchdesc = searchdesc self.setconfig = root_config.setconfig def fake_portdb(): pass self.portdb = fake_portdb for attrib in ("aux_get", "cp_all", "xmatch", "findname", "getfetchlist"): setattr(fake_portdb, attrib, getattr(self, "_"+attrib)) self._dbs = [] portdb = root_config.trees["porttree"].dbapi bindb = root_config.trees["bintree"].dbapi vardb = root_config.trees["vartree"].dbapi if not usepkgonly and portdb._have_root_eclass_dir: self._dbs.append(portdb) if (usepkg or usepkgonly) and bindb.cp_all(): self._dbs.append(bindb) self._dbs.append(vardb) self._portdb = portdb def _cp_all(self): cp_all = set() for db in self._dbs: cp_all.update(db.cp_all()) return list(sorted(cp_all)) def _aux_get(self, *args, **kwargs): for db in self._dbs: try: return db.aux_get(*args, **kwargs) except KeyError: pass raise def _findname(self, *args, **kwargs): for db in self._dbs: if db is not self._portdb: # We don't want findname to return anything # unless it's an ebuild in a portage tree. # Otherwise, it's already built and we don't # care about it. continue func = getattr(db, "findname", None) if func: value = func(*args, **kwargs) if value: return value return None def _getfetchlist(self, *args, **kwargs): for db in self._dbs: func = getattr(db, "getfetchlist", None) if func: value = func(*args, **kwargs) if value: return value return [], [] def _visible(self, db, cpv, metadata): installed = db is self.vartree.dbapi built = installed or db is not self._portdb pkg_type = "ebuild" if installed: pkg_type = "installed" elif built: pkg_type = "binary" return visible(self.settings, Package(type_name=pkg_type, root=self.settings["ROOT"], cpv=cpv, built=built, installed=installed, metadata=metadata)) def _xmatch(self, level, atom): """ This method does not expand old-style virtuals because it is restricted to returning matches for a single ${CATEGORY}/${PN} and old-style virual matches unreliable for that when querying multiple package databases. If necessary, old-style virtuals can be performed on atoms prior to calling this method. """ cp = portage.dep_getkey(atom) if level == "match-all": matches = set() for db in self._dbs: if hasattr(db, "xmatch"): matches.update(db.xmatch(level, atom)) else: matches.update(db.match(atom)) result = list(x for x in matches if portage.cpv_getkey(x) == cp) db._cpv_sort_ascending(result) elif level == "match-visible": matches = set() for db in self._dbs: if hasattr(db, "xmatch"): matches.update(db.xmatch(level, atom)) else: db_keys = list(db._aux_cache_keys) for cpv in db.match(atom): metadata = dict(izip(db_keys, db.aux_get(cpv, db_keys))) if not self._visible(db, cpv, metadata): continue matches.add(cpv) result = list(x for x in matches if portage.cpv_getkey(x) == cp) db._cpv_sort_ascending(result) elif level == "bestmatch-visible": result = None for db in self._dbs: if hasattr(db, "xmatch"): cpv = db.xmatch("bestmatch-visible", atom) if not cpv or portage.cpv_getkey(cpv) != cp: continue if not result or cpv == portage.best([cpv, result]): result = cpv else: db_keys = list(db._aux_cache_keys) # break out of this loop with highest visible # match, checked in descending order for cpv in reversed(db.match(atom)): if portage.cpv_getkey(cpv) != cp: continue metadata = dict(izip(db_keys, db.aux_get(cpv, db_keys))) if not self._visible(db, cpv, metadata): continue if not result or cpv == portage.best([cpv, result]): result = cpv break else: raise NotImplementedError(level) return result def execute(self,searchkey): """Performs the search for the supplied search key""" match_category = 0 self.searchkey=searchkey self.packagematches = [] if self.searchdesc: self.searchdesc=1 self.matches = {"pkg":[], "desc":[], "set":[]} else: self.searchdesc=0 self.matches = {"pkg":[], "set":[]} print "Searching... ", regexsearch = False if self.searchkey.startswith('%'): regexsearch = True self.searchkey = self.searchkey[1:] if self.searchkey.startswith('@'): match_category = 1 self.searchkey = self.searchkey[1:] if regexsearch: self.searchre=re.compile(self.searchkey,re.I) else: self.searchre=re.compile(re.escape(self.searchkey), re.I) for package in self.portdb.cp_all(): self.spinner.update() if match_category: match_string = package[:] else: match_string = package.split("/")[-1] masked=0 if self.searchre.search(match_string): if not self.portdb.xmatch("match-visible", package): masked=1 self.matches["pkg"].append([package,masked]) elif self.searchdesc: # DESCRIPTION searching full_package = self.portdb.xmatch("bestmatch-visible", package) if not full_package: #no match found; we don't want to query description full_package = portage.best( self.portdb.xmatch("match-all", package)) if not full_package: continue else: masked=1 try: full_desc = self.portdb.aux_get( full_package, ["DESCRIPTION"])[0] except KeyError: print "emerge: search: aux_get() failed, skipping" continue if self.searchre.search(full_desc): self.matches["desc"].append([full_package,masked]) self.sdict = self.setconfig.getSets() for setname in self.sdict: self.spinner.update() if match_category: match_string = setname else: match_string = setname.split("/")[-1] if self.searchre.search(match_string): self.matches["set"].append([setname, False]) elif self.searchdesc: if self.searchre.search( self.sdict[setname].getMetadata("DESCRIPTION")): self.matches["set"].append([setname, False]) self.mlen=0 for mtype in self.matches: self.matches[mtype].sort() self.mlen += len(self.matches[mtype]) def output(self): """Outputs the results of the search.""" print "\b\b \n[ Results for search key : "+white(self.searchkey)+" ]" print "[ Applications found : "+white(str(self.mlen))+" ]" print " " vardb = self.vartree.dbapi for mtype in self.matches: for match,masked in self.matches[mtype]: full_package = None if mtype == "pkg": catpack = match full_package = self.portdb.xmatch( "bestmatch-visible", match) if not full_package: #no match found; we don't want to query description masked=1 full_package = portage.best( self.portdb.xmatch("match-all",match)) elif mtype == "desc": full_package = match match = portage.cpv_getkey(match) elif mtype == "set": print green("*")+" "+white(match) print " ", darkgreen("Description:")+" ", self.sdict[match].getMetadata("DESCRIPTION") print if full_package: try: desc, homepage, license = self.portdb.aux_get( full_package, ["DESCRIPTION","HOMEPAGE","LICENSE"]) except KeyError: print "emerge: search: aux_get() failed, skipping" continue if masked: print green("*")+" "+white(match)+" "+red("[ Masked ]") else: print green("*")+" "+white(match) myversion = self.getVersion(full_package, search.VERSION_RELEASE) mysum = [0,0] file_size_str = None mycat = match.split("/")[0] mypkg = match.split("/")[1] mycpv = match + "-" + myversion myebuild = self.portdb.findname(mycpv) if myebuild: pkgdir = os.path.dirname(myebuild) from portage import manifest mf = manifest.Manifest( pkgdir, self.settings["DISTDIR"]) fetchlist = self.portdb.getfetchlist(mycpv, mysettings=self.settings, all=True)[1] try: mysum[0] = mf.getDistfilesSize(fetchlist) except KeyError, e: file_size_str = "Unknown (missing digest for %s)" % \ str(e) available = False for db in self._dbs: if db is not vardb and \ db.cpv_exists(mycpv): available = True if not myebuild and hasattr(db, "bintree"): myebuild = db.bintree.getname(mycpv) try: mysum[0] = os.stat(myebuild).st_size except OSError: myebuild = None break if myebuild and file_size_str is None: mystr = str(mysum[0] / 1024) mycount = len(mystr) while (mycount > 3): mycount -= 3 mystr = mystr[:mycount] + "," + mystr[mycount:] file_size_str = mystr + " kB" if self.verbose: if available: print " ", darkgreen("Latest version available:"),myversion print " ", self.getInstallationStatus(mycat+'/'+mypkg) if myebuild: print " %s %s" % \ (darkgreen("Size of files:"), file_size_str) print " ", darkgreen("Homepage:")+" ",homepage print " ", darkgreen("Description:")+" ",desc print " ", darkgreen("License:")+" ",license print print # # private interface # def getInstallationStatus(self,package): installed_package = self.vartree.dep_bestmatch(package) result = "" version = self.getVersion(installed_package,search.VERSION_RELEASE) if len(version) > 0: result = darkgreen("Latest version installed:")+" "+version else: result = darkgreen("Latest version installed:")+" [ Not Installed ]" return result def getVersion(self,full_package,detail): if len(full_package) > 1: package_parts = portage.catpkgsplit(full_package) if detail == search.VERSION_RELEASE and package_parts[3] != 'r0': result = package_parts[2]+ "-" + package_parts[3] else: result = package_parts[2] else: result = "" return result class RootConfig(object): """This is used internally by depgraph to track information about a particular $ROOT.""" def __init__(self, settings, trees, setconfig): self.trees = trees self.settings = settings self.root = self.settings["ROOT"] self.setconfig = setconfig self.sets = self.setconfig.getSets() self.visible_pkgs = PackageVirtualDbapi(self.settings) def create_world_atom(pkg_key, metadata, args_set, root_config): """Create a new atom for the world file if one does not exist. If the argument atom is precise enough to identify a specific slot then a slot atom will be returned. Atoms that are in the system set may also be stored in world since system atoms can only match one slot while world atoms can be greedy with respect to slots. Unslotted system packages will not be stored in world.""" arg_atom = args_set.findAtomForPackage(pkg_key, metadata) if not arg_atom: return None cp = portage.dep_getkey(arg_atom) new_world_atom = cp sets = root_config.sets portdb = root_config.trees["porttree"].dbapi vardb = root_config.trees["vartree"].dbapi available_slots = set(portdb.aux_get(cpv, ["SLOT"])[0] \ for cpv in portdb.match(cp)) slotted = len(available_slots) > 1 or \ (len(available_slots) == 1 and "0" not in available_slots) if not slotted: # check the vdb in case this is multislot available_slots = set(vardb.aux_get(cpv, ["SLOT"])[0] \ for cpv in vardb.match(cp)) slotted = len(available_slots) > 1 or \ (len(available_slots) == 1 and "0" not in available_slots) if slotted and arg_atom != cp: # If the user gave a specific atom, store it as a # slot atom in the world file. slot_atom = "%s:%s" % (cp, metadata["SLOT"]) # For USE=multislot, there are a couple of cases to # handle here: # # 1) SLOT="0", but the real SLOT spontaneously changed to some # unknown value, so just record an unslotted atom. # # 2) SLOT comes from an installed package and there is no # matching SLOT in the portage tree. # # Make sure that the slot atom is available in either the # portdb or the vardb, since otherwise the user certainly # doesn't want the SLOT atom recorded in the world file # (case 1 above). If it's only available in the vardb, # the user may be trying to prevent a USE=multislot # package from being removed by --depclean (case 2 above). mydb = portdb if not portdb.match(slot_atom): # SLOT seems to come from an installed multislot package mydb = vardb # If there is no installed package matching the SLOT atom, # it probably changed SLOT spontaneously due to USE=multislot, # so just record an unslotted atom. if vardb.match(slot_atom): # Now verify that the argument is precise # enough to identify a specific slot. matches = mydb.match(arg_atom) matched_slots = set() for cpv in matches: matched_slots.add(mydb.aux_get(cpv, ["SLOT"])[0]) if len(matched_slots) == 1: new_world_atom = slot_atom if new_world_atom == sets["world"].findAtomForPackage(pkg_key, metadata): # Both atoms would be identical, so there's nothing to add. return None if not slotted: # Unlike world atoms, system atoms are not greedy for slots, so they # can't be safely excluded from world if they are slotted. system_atom = sets["system"].findAtomForPackage(pkg_key, metadata) if system_atom: if not portage.dep_getkey(system_atom).startswith("virtual/"): return None # System virtuals aren't safe to exclude from world since they can # match multiple old-style virtuals but only one of them will be # pulled in by update or depclean. providers = portdb.mysettings.getvirtuals().get( portage.dep_getkey(system_atom)) if providers and len(providers) == 1 and providers[0] == cp: return None return new_world_atom def filter_iuse_defaults(iuse): for flag in iuse: if flag.startswith("+") or flag.startswith("-"): yield flag[1:] else: yield flag class SlotObject(object): __slots__ = ("__weakref__",) def __init__(self, **kwargs): classes = [self.__class__] while classes: c = classes.pop() if c is SlotObject: continue classes.extend(c.__bases__) slots = getattr(c, "__slots__", None) if not slots: continue for myattr in slots: myvalue = kwargs.get(myattr, None) setattr(self, myattr, myvalue) class AbstractDepPriority(SlotObject): __slots__ = ("buildtime", "runtime", "runtime_post") def __lt__(self, other): return self.__int__() < other def __le__(self, other): return self.__int__() <= other def __eq__(self, other): return self.__int__() == other def __ne__(self, other): return self.__int__() != other def __gt__(self, other): return self.__int__() > other def __ge__(self, other): return self.__int__() >= other def copy(self): import copy return copy.copy(self) class DepPriority(AbstractDepPriority): """ This class generates an integer priority level based of various attributes of the dependency relationship. Attributes can be assigned at any time and the new integer value will be generated on calls to the __int__() method. Rich comparison operators are supported. The boolean attributes that affect the integer value are "satisfied", "buildtime", "runtime", and "system". Various combinations of attributes lead to the following priority levels: Combination of properties Priority Category not satisfied and buildtime 0 HARD not satisfied and runtime -1 MEDIUM not satisfied and runtime_post -2 MEDIUM_SOFT satisfied and buildtime and rebuild -3 SOFT satisfied and buildtime -4 SOFT satisfied and runtime -5 SOFT satisfied and runtime_post -6 SOFT (none of the above) -6 SOFT Several integer constants are defined for categorization of priority levels: MEDIUM The upper boundary for medium dependencies. MEDIUM_SOFT The upper boundary for medium-soft dependencies. SOFT The upper boundary for soft dependencies. MIN The lower boundary for soft dependencies. """ __slots__ = ("satisfied", "rebuild") MEDIUM = -1 MEDIUM_SOFT = -2 SOFT = -3 MIN = -6 def __int__(self): if not self.satisfied: if self.buildtime: return 0 if self.runtime: return -1 if self.runtime_post: return -2 if self.buildtime: if self.rebuild: return -3 return -4 if self.runtime: return -5 if self.runtime_post: return -6 return -6 def __str__(self): myvalue = self.__int__() if myvalue > self.MEDIUM: return "hard" if myvalue > self.MEDIUM_SOFT: return "medium" if myvalue > self.SOFT: return "medium-soft" return "soft" class BlockerDepPriority(DepPriority): __slots__ = () def __int__(self): return 0 BlockerDepPriority.instance = BlockerDepPriority() class UnmergeDepPriority(AbstractDepPriority): __slots__ = () """ Combination of properties Priority Category runtime 0 HARD runtime_post -1 HARD buildtime -2 SOFT (none of the above) -2 SOFT """ MAX = 0 SOFT = -2 MIN = -2 def __int__(self): if self.runtime: return 0 if self.runtime_post: return -1 if self.buildtime: return -2 return -2 def __str__(self): myvalue = self.__int__() if myvalue > self.SOFT: return "hard" return "soft" class FakeVartree(portage.vartree): """This is implements an in-memory copy of a vartree instance that provides all the interfaces required for use by the depgraph. The vardb is locked during the constructor call just long enough to read a copy of the installed package information. This allows the depgraph to do it's dependency calculations without holding a lock on the vardb. It also allows things like vardb global updates to be done in memory so that the user doesn't necessarily need write access to the vardb in cases where global updates are necessary (updates are performed when necessary if there is not a matching ebuild in the tree).""" def __init__(self, real_vartree, portdb, db_keys, pkg_cache): self.root = real_vartree.root self.settings = real_vartree.settings mykeys = db_keys[:] for required_key in ("COUNTER", "SLOT"): if required_key not in mykeys: mykeys.append(required_key) self._pkg_cache = pkg_cache self.dbapi = PackageVirtualDbapi(real_vartree.settings) vdb_path = os.path.join(self.root, portage.VDB_PATH) try: # At least the parent needs to exist for the lock file. portage.util.ensure_dirs(vdb_path) except portage.exception.PortageException: pass vdb_lock = None try: if os.access(vdb_path, os.W_OK): vdb_lock = portage.locks.lockdir(vdb_path) real_dbapi = real_vartree.dbapi slot_counters = {} for cpv in real_dbapi.cpv_all(): cache_key = ("installed", self.root, cpv, "nomerge") pkg = self._pkg_cache.get(cache_key) if pkg is not None: metadata = pkg.metadata else: metadata = dict(izip(mykeys, real_dbapi.aux_get(cpv, mykeys))) myslot = metadata["SLOT"] mycp = portage.dep_getkey(cpv) myslot_atom = "%s:%s" % (mycp, myslot) try: mycounter = long(metadata["COUNTER"]) except ValueError: mycounter = 0 metadata["COUNTER"] = str(mycounter) other_counter = slot_counters.get(myslot_atom, None) if other_counter is not None: if other_counter > mycounter: continue slot_counters[myslot_atom] = mycounter if pkg is None: pkg = Package(built=True, cpv=cpv, installed=True, metadata=metadata, root=self.root, type_name="installed") self._pkg_cache[pkg] = pkg self.dbapi.cpv_inject(pkg) real_dbapi.flush_cache() finally: if vdb_lock: portage.locks.unlockdir(vdb_lock) # Populate the old-style virtuals using the cached values. if not self.settings.treeVirtuals: self.settings.treeVirtuals = portage.util.map_dictlist_vals( portage.getCPFromCPV, self.get_all_provides()) # Intialize variables needed for lazy cache pulls of the live ebuild # metadata. This ensures that the vardb lock is released ASAP, without # being delayed in case cache generation is triggered. self._aux_get = self.dbapi.aux_get self.dbapi.aux_get = self._aux_get_wrapper self._match = self.dbapi.match self.dbapi.match = self._match_wrapper self._aux_get_history = set() self._portdb_keys = ["DEPEND", "RDEPEND", "PDEPEND"] self._portdb = portdb self._global_updates = None def _match_wrapper(self, cpv, use_cache=1): """ Make sure the metadata in Package instances gets updated for any cpv that is returned from a match() call, since the metadata can be accessed directly from the Package instance instead of via aux_get(). """ matches = self._match(cpv, use_cache=use_cache) for cpv in matches: if cpv in self._aux_get_history: continue self._aux_get_wrapper(cpv, []) return matches def _aux_get_wrapper(self, pkg, wants): if pkg in self._aux_get_history: return self._aux_get(pkg, wants) self._aux_get_history.add(pkg) try: # Use the live ebuild metadata if possible. live_metadata = dict(izip(self._portdb_keys, self._portdb.aux_get(pkg, self._portdb_keys))) self.dbapi.aux_update(pkg, live_metadata) except (KeyError, portage.exception.PortageException): if self._global_updates is None: self._global_updates = \ grab_global_updates(self._portdb.porttree_root) perform_global_updates( pkg, self.dbapi, self._global_updates) return self._aux_get(pkg, wants) def grab_global_updates(portdir): from portage.update import grab_updates, parse_updates updpath = os.path.join(portdir, "profiles", "updates") try: rawupdates = grab_updates(updpath) except portage.exception.DirectoryNotFound: rawupdates = [] upd_commands = [] for mykey, mystat, mycontent in rawupdates: commands, errors = parse_updates(mycontent) upd_commands.extend(commands) return upd_commands def perform_global_updates(mycpv, mydb, mycommands): from portage.update import update_dbentries aux_keys = ["DEPEND", "RDEPEND", "PDEPEND"] aux_dict = dict(izip(aux_keys, mydb.aux_get(mycpv, aux_keys))) updates = update_dbentries(mycommands, aux_dict) if updates: mydb.aux_update(mycpv, updates) def visible(pkgsettings, pkg): """ Check if a package is visible. This can raise an InvalidDependString exception if LICENSE is invalid. TODO: optionally generate a list of masking reasons @rtype: Boolean @returns: True if the package is visible, False otherwise. """ if not pkg.metadata["SLOT"]: return False if pkg.built and not pkg.installed: pkg_chost = pkg.metadata.get("CHOST") if pkg_chost and pkg_chost != pkgsettings["CHOST"]: return False if not portage.eapi_is_supported(pkg.metadata["EAPI"]): return False if not pkg.installed and \ pkgsettings.getMissingKeywords(pkg.cpv, pkg.metadata): return False if pkgsettings.getMaskAtom(pkg.cpv, pkg.metadata): return False if pkgsettings.getProfileMaskAtom(pkg.cpv, pkg.metadata): return False try: if pkgsettings.getMissingLicenses(pkg.cpv, pkg.metadata): return False except portage.exception.InvalidDependString: return False return True def get_masking_status(pkg, pkgsettings, root_config): mreasons = portage.getmaskingstatus( pkg, settings=pkgsettings, portdb=root_config.trees["porttree"].dbapi) if pkg.built and not pkg.installed: pkg_chost = pkg.metadata.get("CHOST") if pkg_chost and pkg_chost != pkgsettings["CHOST"]: mreasons.append("CHOST: %s" % \ pkg.metadata["CHOST"]) if not pkg.metadata["SLOT"]: mreasons.append("invalid: SLOT is undefined") return mreasons def get_mask_info(root_config, cpv, pkgsettings, db, pkg_type, built, installed, db_keys): eapi_masked = False try: metadata = dict(izip(db_keys, db.aux_get(cpv, db_keys))) except KeyError: metadata = None if metadata and not built: pkgsettings.setcpv(cpv, mydb=metadata) metadata["USE"] = pkgsettings["PORTAGE_USE"] if metadata is None: mreasons = ["corruption"] else: pkg = Package(type_name=pkg_type, root=root_config.root, cpv=cpv, built=built, installed=installed, metadata=metadata) mreasons = get_masking_status(pkg, pkgsettings, root_config) return metadata, mreasons def show_masked_packages(masked_packages): shown_licenses = set() shown_comments = set() # Maybe there is both an ebuild and a binary. Only # show one of them to avoid redundant appearance. shown_cpvs = set() have_eapi_mask = False for (root_config, pkgsettings, cpv, metadata, mreasons) in masked_packages: if cpv in shown_cpvs: continue shown_cpvs.add(cpv) comment, filename = None, None if "package.mask" in mreasons: comment, filename = \ portage.getmaskingreason( cpv, metadata=metadata, settings=pkgsettings, portdb=root_config.trees["porttree"].dbapi, return_location=True) missing_licenses = [] if metadata: if not portage.eapi_is_supported(metadata["EAPI"]): have_eapi_mask = True try: missing_licenses = \ pkgsettings.getMissingLicenses( cpv, metadata) except portage.exception.InvalidDependString: # This will have already been reported # above via mreasons. pass print "- "+cpv+" (masked by: "+", ".join(mreasons)+")" if comment and comment not in shown_comments: print filename+":" print comment shown_comments.add(comment) portdb = root_config.trees["porttree"].dbapi for l in missing_licenses: l_path = portdb.findLicensePath(l) if l in shown_licenses: continue msg = ("A copy of the '%s' license" + \ " is located at '%s'.") % (l, l_path) print msg print shown_licenses.add(l) return have_eapi_mask class Task(SlotObject): __slots__ = ("_hash_key",) def _get_hash_key(self): hash_key = getattr(self, "_hash_key", None) if hash_key is None: raise NotImplementedError(self) return hash_key def __eq__(self, other): return self._get_hash_key() == other def __ne__(self, other): return self._get_hash_key() != other def __hash__(self): return hash(self._get_hash_key()) def __len__(self): return len(self._get_hash_key()) def __getitem__(self, key): return self._get_hash_key()[key] def __iter__(self): return iter(self._get_hash_key()) def __contains__(self, key): return key in self._get_hash_key() def __str__(self): return str(self._get_hash_key()) class Blocker(Task): __slots__ = ("root", "atom", "cp", "satisfied") def __init__(self, **kwargs): Task.__init__(self, **kwargs) self.cp = portage.dep_getkey(self.atom) def _get_hash_key(self): hash_key = getattr(self, "_hash_key", None) if hash_key is None: self._hash_key = \ ("blocks", self.root, self.atom) return self._hash_key class Package(Task): __slots__ = ("built", "cpv", "depth", "installed", "metadata", "onlydeps", "operation", "root", "type_name", "cp", "cpv_slot", "pv_split", "slot_atom") def __init__(self, **kwargs): Task.__init__(self, **kwargs) self.cp = portage.cpv_getkey(self.cpv) self.slot_atom = "%s:%s" % (self.cp, self.metadata["SLOT"]) self.cpv_slot = "%s:%s" % (self.cpv, self.metadata["SLOT"]) self.pv_split = portage.catpkgsplit(self.cpv)[1:] def _get_hash_key(self): hash_key = getattr(self, "_hash_key", None) if hash_key is None: if self.operation is None: self.operation = "merge" if self.onlydeps or self.installed: self.operation = "nomerge" self._hash_key = \ (self.type_name, self.root, self.cpv, self.operation) return self._hash_key def __lt__(self, other): if other.cp != self.cp: return False if portage.pkgcmp(self.pv_split, other.pv_split) < 0: return True return False def __le__(self, other): if other.cp != self.cp: return False if portage.pkgcmp(self.pv_split, other.pv_split) <= 0: return True return False def __gt__(self, other): if other.cp != self.cp: return False if portage.pkgcmp(self.pv_split, other.pv_split) > 0: return True return False def __ge__(self, other): if other.cp != self.cp: return False if portage.pkgcmp(self.pv_split, other.pv_split) >= 0: return True return False class DependencyArg(object): def __init__(self, arg=None, root_config=None): self.arg = arg self.root_config = root_config def __str__(self): return self.arg class AtomArg(DependencyArg): def __init__(self, atom=None, **kwargs): DependencyArg.__init__(self, **kwargs) self.atom = atom self.set = (self.atom, ) class PackageArg(DependencyArg): def __init__(self, package=None, **kwargs): DependencyArg.__init__(self, **kwargs) self.package = package self.atom = "=" + package.cpv self.set = (self.atom, ) class SetArg(DependencyArg): def __init__(self, set=None, **kwargs): DependencyArg.__init__(self, **kwargs) self.set = set self.name = self.arg[len(SETPREFIX):] class Dependency(SlotObject): __slots__ = ("atom", "blocker", "depth", "parent", "onlydeps", "priority", "root") def __init__(self, **kwargs): SlotObject.__init__(self, **kwargs) if self.priority is None: self.priority = DepPriority() if self.depth is None: self.depth = 0 class BlockerCache(DictMixin): """This caches blockers of installed packages so that dep_check does not have to be done for every single installed package on every invocation of emerge. The cache is invalidated whenever it is detected that something has changed that might alter the results of dep_check() calls: 1) the set of installed packages (including COUNTER) has changed 2) the old-style virtuals have changed """ class BlockerData(object): def __init__(self, counter, atoms): self.counter = counter self.atoms = atoms def __init__(self, myroot, vardb): self._vardb = vardb self._installed_pkgs = set(vardb.cpv_all()) self._virtuals = vardb.settings.getvirtuals() self._cache_filename = os.path.join(myroot, portage.CACHE_PATH.lstrip(os.path.sep), "vdb_blockers.pickle") self._cache_version = "1" self._cache_data = None self._modified = False self._load() def _load(self): try: f = open(self._cache_filename) mypickle = cPickle.Unpickler(f) mypickle.find_global = None self._cache_data = mypickle.load() f.close() del f except (IOError, OSError, EOFError, cPickle.UnpicklingError): pass cache_valid = self._cache_data and \ isinstance(self._cache_data, dict) and \ self._cache_data.get("version") == self._cache_version and \ isinstance(self._cache_data.get("blockers"), dict) if cache_valid: invalid_cache = set() for cpv, value \ in self._cache_data["blockers"].iteritems(): if not (isinstance(value, tuple) and len(value) == 2): invalid_cache.add(cpv) continue counter, atoms = value try: if counter != long(self._vardb.aux_get(cpv, ["COUNTER"])[0]): invalid_cache.add(cpv) continue except KeyError: # The package is no longer installed. invalid_cache.add(cpv) continue for cpv in invalid_cache: del self._cache_data["blockers"][cpv] if not self._cache_data["blockers"]: cache_valid = False if not cache_valid: self._cache_data = {"version":self._cache_version} self._cache_data["blockers"] = {} self._cache_data["virtuals"] = self._virtuals self._modified = False def flush(self): """If the current user has permission and the internal blocker cache been updated, save it to disk and mark it unmodified. This is called by emerge after it has proccessed blockers for all installed packages. Currently, the cache is only written if the user has superuser privileges (since that's required to obtain a lock), but all users have read access and benefit from faster blocker lookups (as long as the entire cache is still valid). The cache is stored as a pickled dict object with the following format: { version : "1", "blockers" : {cpv1:(counter,(atom1, atom2...)), cpv2...}, "virtuals" : vardb.settings.getvirtuals() } """ if self._modified and \ secpass >= 2: try: f = portage.util.atomic_ofstream(self._cache_filename) cPickle.dump(self._cache_data, f, -1) f.close() portage.util.apply_secpass_permissions( self._cache_filename, gid=portage.portage_gid, mode=0644) except (IOError, OSError), e: pass self._modified = False def __setitem__(self, cpv, blocker_data): """ Update the cache and mark it as modified for a future call to self.flush(). @param cpv: Package for which to cache blockers. @type cpv: String @param blocker_data: An object with counter and atoms attributes. @type blocker_data: BlockerData """ self._cache_data["blockers"][cpv] = \ (blocker_data.counter, blocker_data.atoms) self._modified = True def __getitem__(self, cpv): """ @rtype: BlockerData @returns: An object with counter and atoms attributes. """ return self.BlockerData(*self._cache_data["blockers"][cpv]) def keys(self): """This needs to be implemented so that self.__repr__() doesn't raise an AttributeError.""" if self._cache_data and "blockers" in self._cache_data: return self._cache_data["blockers"].keys() return [] def show_invalid_depstring_notice(parent_node, depstring, error_msg): from formatter import AbstractFormatter, DumbWriter f = AbstractFormatter(DumbWriter(maxcol=72)) print "\n\n!!! Invalid or corrupt dependency specification: " print print error_msg print print parent_node print print depstring print p_type, p_root, p_key, p_status = parent_node msg = [] if p_status == "nomerge": category, pf = portage.catsplit(p_key) pkg_location = os.path.join(p_root, portage.VDB_PATH, category, pf) msg.append("Portage is unable to process the dependencies of the ") msg.append("'%s' package. " % p_key) msg.append("In order to correct this problem, the package ") msg.append("should be uninstalled, reinstalled, or upgraded. ") msg.append("As a temporary workaround, the --nodeps option can ") msg.append("be used to ignore all dependencies. For reference, ") msg.append("the problematic dependencies can be found in the ") msg.append("*DEPEND files located in '%s/'." % pkg_location) else: msg.append("This package can not be installed. ") msg.append("Please notify the '%s' package maintainer " % p_key) msg.append("about this problem.") for x in msg: f.add_flowing_data(x) f.end_paragraph(1) class PackageVirtualDbapi(portage.dbapi): """ A dbapi-like interface class that represents the state of the installed package database as new packages are installed, replacing any packages that previously existed in the same slot. The main difference between this class and fakedbapi is that this one uses Package instances internally (passed in via cpv_inject() and cpv_remove() calls). """ def __init__(self, settings): portage.dbapi.__init__(self) self.settings = settings self._match_cache = {} self._cp_map = {} self._cpv_map = {} def copy(self): obj = PackageVirtualDbapi(self.settings) obj._match_cache = self._match_cache.copy() obj._cp_map = self._cp_map.copy() for k, v in obj._cp_map.iteritems(): obj._cp_map[k] = v[:] obj._cpv_map = self._cpv_map.copy() return obj def __contains__(self, item): existing = self._cpv_map.get(item.cpv) if existing is not None and \ existing == item: return True return False def match_pkgs(self, atom): return [self._cpv_map[cpv] for cpv in self.match(atom)] def _clear_cache(self): if self._categories is not None: self._categories = None if self._match_cache: self._match_cache = {} def match(self, origdep, use_cache=1): result = self._match_cache.get(origdep) if result is not None: return result[:] result = portage.dbapi.match(self, origdep, use_cache=use_cache) self._match_cache[origdep] = result return result[:] def cpv_exists(self, cpv): return cpv in self._cpv_map def cp_list(self, mycp, use_cache=1): cachelist = self._match_cache.get(mycp) # cp_list() doesn't expand old-style virtuals if cachelist and cachelist[0].startswith(mycp): return cachelist[:] cpv_list = self._cp_map.get(mycp) if cpv_list is None: cpv_list = [] else: cpv_list = [pkg.cpv for pkg in cpv_list] self._cpv_sort_ascending(cpv_list) if not (not cpv_list and mycp.startswith("virtual/")): self._match_cache[mycp] = cpv_list return cpv_list[:] def cp_all(self): return list(self._cp_map) def cpv_all(self): return list(self._cpv_map) def cpv_inject(self, pkg): cp_list = self._cp_map.get(pkg.cp) if cp_list is None: cp_list = [] self._cp_map[pkg.cp] = cp_list e_pkg = self._cpv_map.get(pkg.cpv) if e_pkg is not None: if e_pkg == pkg: return self.cpv_remove(e_pkg) for e_pkg in cp_list: if e_pkg.slot_atom == pkg.slot_atom: if e_pkg == pkg: return self.cpv_remove(e_pkg) break cp_list.append(pkg) self._cpv_map[pkg.cpv] = pkg self._clear_cache() def cpv_remove(self, pkg): old_pkg = self._cpv_map.get(pkg.cpv) if old_pkg != pkg: raise KeyError(pkg) self._cp_map[pkg.cp].remove(pkg) del self._cpv_map[pkg.cpv] self._clear_cache() def aux_get(self, cpv, wants): metadata = self._cpv_map[cpv].metadata return [metadata.get(x, "") for x in wants] def aux_update(self, cpv, values): self._cpv_map[cpv].metadata.update(values) self._clear_cache() class depgraph(object): pkg_tree_map = { "ebuild":"porttree", "binary":"bintree", "installed":"vartree"} _mydbapi_keys = [ "CHOST", "COUNTER", "DEPEND", "EAPI", "IUSE", "KEYWORDS", "LICENSE", "PDEPEND", "PROVIDE", "RDEPEND", "repository", "RESTRICT", "SLOT", "USE"] _dep_keys = ["DEPEND", "RDEPEND", "PDEPEND"] def __init__(self, settings, trees, myopts, myparams, spinner): self.settings = settings self.target_root = settings["ROOT"] self.myopts = myopts self.myparams = myparams self.edebug = 0 if settings.get("PORTAGE_DEBUG", "") == "1": self.edebug = 1 self.spinner = spinner self.pkgsettings = {} # Maps slot atom to package for each Package added to the graph. self._slot_pkg_map = {} # Maps nodes to the reasons they were selected for reinstallation. self._reinstall_nodes = {} self.mydbapi = {} self.trees = {} self._trees_orig = trees self.roots = {} # Contains a filtered view of preferred packages that are selected # from available repositories. self._filtered_trees = {} # Contains installed packages and new packages that have been added # to the graph. self._graph_trees = {} # All Package instances self._pkg_cache = self._package_cache(self) for myroot in trees: self.trees[myroot] = {} # Create a RootConfig instance that references # the FakeVartree instead of the real one. self.roots[myroot] = RootConfig( trees[myroot]["vartree"].settings, self.trees[myroot], trees[myroot]["root_config"].setconfig) for tree in ("porttree", "bintree"): self.trees[myroot][tree] = trees[myroot][tree] self.trees[myroot]["vartree"] = \ FakeVartree(trees[myroot]["vartree"], trees[myroot]["porttree"].dbapi, self._mydbapi_keys, self._pkg_cache) self.pkgsettings[myroot] = portage.config( clone=self.trees[myroot]["vartree"].settings) self._slot_pkg_map[myroot] = {} vardb = self.trees[myroot]["vartree"].dbapi preload_installed_pkgs = "--nodeps" not in self.myopts and \ "--buildpkgonly" not in self.myopts # This fakedbapi instance will model the state that the vdb will # have after new packages have been installed. fakedb = PackageVirtualDbapi(vardb.settings) if preload_installed_pkgs: for cpv in vardb.cpv_all(): self.spinner.update() metadata = dict(izip(self._mydbapi_keys, vardb.aux_get(cpv, self._mydbapi_keys))) pkg = Package(built=True, cpv=cpv, installed=True, metadata=metadata, root=myroot, type_name="installed") self._pkg_cache[pkg] = pkg fakedb.cpv_inject(pkg) self.mydbapi[myroot] = fakedb def graph_tree(): pass graph_tree.dbapi = fakedb self._graph_trees[myroot] = {} self._filtered_trees[myroot] = {} # Substitute the graph tree for the vartree in dep_check() since we # want atom selections to be consistent with package selections # have already been made. self._graph_trees[myroot]["porttree"] = graph_tree self._graph_trees[myroot]["vartree"] = graph_tree def filtered_tree(): pass filtered_tree.dbapi = self._dep_check_composite_db(self, myroot) self._filtered_trees[myroot]["porttree"] = filtered_tree # Passing in graph_tree as the vartree here could lead to better # atom selections in some cases by causing atoms for packages that # have been added to the graph to be preferred over other choices. # However, it can trigger atom selections that result in # unresolvable direct circular dependencies. For example, this # happens with gwydion-dylan which depends on either itself or # gwydion-dylan-bin. In case gwydion-dylan is not yet installed, # gwydion-dylan-bin needs to be selected in order to avoid a # an unresolvable direct circular dependency. # # To solve the problem described above, pass in "graph_db" so that # packages that have been added to the graph are distinguishable # from other available packages and installed packages. Also, pass # the parent package into self._select_atoms() calls so that # unresolvable direct circular dependencies can be detected and # avoided when possible. self._filtered_trees[myroot]["graph_db"] = graph_tree.dbapi self._filtered_trees[myroot]["vartree"] = self.trees[myroot]["vartree"] dbs = [] portdb = self.trees[myroot]["porttree"].dbapi bindb = self.trees[myroot]["bintree"].dbapi vardb = self.trees[myroot]["vartree"].dbapi # (db, pkg_type, built, installed, db_keys) if "--usepkgonly" not in self.myopts: db_keys = list(portdb._aux_cache_keys) dbs.append((portdb, "ebuild", False, False, db_keys)) if "--usepkg" in self.myopts: db_keys = list(bindb._aux_cache_keys) dbs.append((bindb, "binary", True, False, db_keys)) db_keys = self._mydbapi_keys dbs.append((vardb, "installed", True, True, db_keys)) self._filtered_trees[myroot]["dbs"] = dbs if "--usepkg" in self.myopts: self.trees[myroot]["bintree"].populate( "--getbinpkg" in self.myopts, "--getbinpkgonly" in self.myopts) del trees self.digraph=portage.digraph() # contains all sets added to the graph self._sets = {} # contains atoms given as arguments self._sets["args"] = InternalPackageSet() # contains all atoms from all sets added to the graph, including # atoms given as arguments self._set_atoms = InternalPackageSet() self._atom_arg_map = {} # contains all nodes pulled in by self._set_atoms self._set_nodes = set() # Contains only Blocker -> Uninstall edges self._blocker_uninstalls = digraph() # Contains only Package -> Blocker edges self._blocker_parents = digraph() # Contains only unsolvable Package -> Blocker edges self._unsolvable_blockers = digraph() self._slot_collision_info = set() # Slot collision nodes are not allowed to block other packages since # blocker validation is only able to account for one package per slot. self._slot_collision_nodes = set() self._serialized_tasks_cache = None self._pprovided_args = [] self._missing_args = [] self._masked_installed = [] self._unsatisfied_deps_for_display = [] self._dep_stack = [] self._unsatisfied_deps = [] self._ignored_deps = [] self._required_set_names = set(["system", "world"]) self._select_atoms = self._select_atoms_highest_available self._select_package = self._select_pkg_highest_available self._highest_pkg_cache = {} def _show_slot_collision_notice(self): """Show an informational message advising the user to mask one of the the packages. In some cases it may be possible to resolve this automatically, but support for backtracking (removal nodes that have already been selected) will be required in order to handle all possible cases.""" if not self._slot_collision_info: return msg = [] msg.append("\n!!! Multiple versions within a single " + \ "package slot have been pulled\n") msg.append("!!! into the dependency graph, resulting" + \ " in a slot conflict:\n\n") indent = " " # Max number of parents shown, to avoid flooding the display. max_parents = 3 for slot_atom, root in self._slot_collision_info: msg.append(slot_atom) msg.append("\n\n") slot_nodes = [] for node in self._slot_collision_nodes: if node.slot_atom == slot_atom: slot_nodes.append(node) slot_nodes.append(self._slot_pkg_map[root][slot_atom]) for node in slot_nodes: msg.append(indent) msg.append(str(node)) parents = self.digraph.parent_nodes(node) if parents: omitted_parents = 0 if len(parents) > max_parents: pruned_list = [] # When generating the pruned list, prefer instances # of DependencyArg over instances of Package. for parent in parents: if isinstance(parent, DependencyArg): pruned_list.append(parent) # Prefer Packages instances that themselves have been # pulled into collision slots. for parent in parents: if isinstance(parent, Package) and \ (parent.slot_atom, parent.root) \ in self._slot_collision_info: pruned_list.append(parent) for parent in parents: if len(pruned_list) >= max_parents: break if not isinstance(parent, DependencyArg) and \ parent not in pruned_list: pruned_list.append(parent) omitted_parents = len(parents) - len(pruned_list) parents = pruned_list msg.append(" pulled in by\n") for parent in parents: msg.append(2*indent) msg.append(str(parent)) msg.append("\n") if omitted_parents: msg.append(2*indent) msg.append("(and %d more)\n" % omitted_parents) else: msg.append(" (no parents)\n") msg.append("\n") msg.append("\n") sys.stderr.write("".join(msg)) sys.stderr.flush() if "--quiet" in self.myopts: return msg = [] msg.append("It may be possible to solve this problem ") msg.append("by using package.mask to prevent one of ") msg.append("those packages from being selected. ") msg.append("However, it is also possible that conflicting ") msg.append("dependencies exist such that they are impossible to ") msg.append("satisfy simultaneously. If such a conflict exists in ") msg.append("the dependencies of two different packages, then those ") msg.append("packages can not be installed simultaneously.") from formatter import AbstractFormatter, DumbWriter f = AbstractFormatter(DumbWriter(sys.stderr, maxcol=72)) for x in msg: f.add_flowing_data(x) f.end_paragraph(1) msg = [] msg.append("For more information, see MASKED PACKAGES ") msg.append("section in the emerge man page or refer ") msg.append("to the Gentoo Handbook.") for x in msg: f.add_flowing_data(x) f.end_paragraph(1) f.writer.flush() def _reinstall_for_flags(self, forced_flags, orig_use, orig_iuse, cur_use, cur_iuse): """Return a set of flags that trigger reinstallation, or None if there are no such flags.""" if "--newuse" in self.myopts: flags = orig_iuse.symmetric_difference( cur_iuse).difference(forced_flags) flags.update(orig_iuse.intersection(orig_use).symmetric_difference( cur_iuse.intersection(cur_use))) if flags: return flags elif "changed-use" == self.myopts.get("--reinstall"): flags = orig_iuse.intersection(orig_use).symmetric_difference( cur_iuse.intersection(cur_use)) if flags: return flags return None def _create_graph(self, allow_unsatisfied=False): dep_stack = self._dep_stack while dep_stack: self.spinner.update() dep = dep_stack.pop() if isinstance(dep, Package): if not self._add_pkg_deps(dep, allow_unsatisfied=allow_unsatisfied): return 0 continue if not self._add_dep(dep, allow_unsatisfied=allow_unsatisfied): return 0 return 1 def _add_dep(self, dep, allow_unsatisfied=False): debug = "--debug" in self.myopts buildpkgonly = "--buildpkgonly" in self.myopts nodeps = "--nodeps" in self.myopts empty = "empty" in self.myparams deep = "deep" in self.myparams update = "--update" in self.myopts and dep.depth <= 1 if dep.blocker: if not buildpkgonly and \ not nodeps and \ dep.parent not in self._slot_collision_nodes: if dep.parent.onlydeps: # It's safe to ignore blockers if the # parent is an --onlydeps node. return 1 # The blocker applies to the root where # the parent is or will be installed. blocker = Blocker(atom=dep.atom, root=dep.parent.root) self._blocker_parents.add(blocker, dep.parent) return 1 dep_pkg, existing_node = self._select_package(dep.root, dep.atom, onlydeps=dep.onlydeps) if not dep_pkg: if allow_unsatisfied: self._unsatisfied_deps.append(dep) return 1 self._unsatisfied_deps_for_display.append( ((dep.root, dep.atom), {"myparent":dep.parent})) return 0 # In some cases, dep_check will return deps that shouldn't # be proccessed any further, so they are identified and # discarded here. Try to discard as few as possible since # discarded dependencies reduce the amount of information # available for optimization of merge order. if dep.priority.satisfied and \ not (existing_node or empty or deep or update): myarg = None if dep.root == self.target_root: try: myarg = self._iter_atoms_for_pkg(dep_pkg).next() except StopIteration: pass except portage.exception.InvalidDependString: if not dep_pkg.installed: # This shouldn't happen since the package # should have been masked. raise if not myarg: self._ignored_deps.append(dep) return 1 if not self._add_pkg(dep_pkg, dep.parent, priority=dep.priority, depth=dep.depth): return 0 return 1 def _add_pkg(self, pkg, myparent, priority=None, depth=0): if priority is None: priority = DepPriority() """ Fills the digraph with nodes comprised of packages to merge. mybigkey is the package spec of the package to merge. myparent is the package depending on mybigkey ( or None ) addme = Should we add this package to the digraph or are we just looking at it's deps? Think --onlydeps, we need to ignore packages in that case. #stuff to add: #SLOT-aware emerge #IUSE-aware emerge -> USE DEP aware depgraph #"no downgrade" emerge """ # select the correct /var database that we'll be checking against vardbapi = self.trees[pkg.root]["vartree"].dbapi pkgsettings = self.pkgsettings[pkg.root] args = None arg_atoms = None if True: try: arg_atoms = list(self._iter_atoms_for_pkg(pkg)) except portage.exception.InvalidDependString, e: if not pkg.installed: show_invalid_depstring_notice( pkg, pkg.metadata["PROVIDE"], str(e)) return 0 del e else: args = [arg for arg, atom in arg_atoms] if not pkg.onlydeps: if not pkg.installed and \ "empty" not in self.myparams and \ vardbapi.match(pkg.slot_atom): # Increase the priority of dependencies on packages that # are being rebuilt. This optimizes merge order so that # dependencies are rebuilt/updated as soon as possible, # which is needed especially when emerge is called by # revdep-rebuild since dependencies may be affected by ABI # breakage that has rendered them useless. Don't adjust # priority here when in "empty" mode since all packages # are being merged in that case. priority.rebuild = True existing_node = self._slot_pkg_map[pkg.root].get(pkg.slot_atom) slot_collision = False if existing_node: if pkg.cpv == existing_node.cpv: # The existing node can be reused. if args: for arg in args: self.digraph.add(existing_node, arg, priority=priority) # If a direct circular dependency is not an unsatisfied # buildtime dependency then drop it here since otherwise # it can skew the merge order calculation in an unwanted # way. if existing_node != myparent or \ (priority.buildtime and not priority.satisfied): self.digraph.addnode(existing_node, myparent, priority=priority) return 1 else: if pkg in self._slot_collision_nodes: return 1 # A slot collision has occurred. Sometimes this coincides # with unresolvable blockers, so the slot collision will be # shown later if there are no unresolvable blockers. self._slot_collision_info.add((pkg.slot_atom, pkg.root)) self._slot_collision_nodes.add(pkg) slot_collision = True if slot_collision: # Now add this node to the graph so that self.display() # can show use flags and --tree portage.output. This node is # only being partially added to the graph. It must not be # allowed to interfere with the other nodes that have been # added. Do not overwrite data for existing nodes in # self.mydbapi since that data will be used for blocker # validation. # Even though the graph is now invalid, continue to process # dependencies so that things like --fetchonly can still # function despite collisions. pass else: self._slot_pkg_map[pkg.root][pkg.slot_atom] = pkg self.mydbapi[pkg.root].cpv_inject(pkg) self.digraph.addnode(pkg, myparent, priority=priority) if not pkg.installed: # Allow this package to satisfy old-style virtuals in case it # doesn't already. Any pre-existing providers will be preferred # over this one. try: pkgsettings.setinst(pkg.cpv, pkg.metadata) # For consistency, also update the global virtuals. settings = self.roots[pkg.root].settings settings.unlock() settings.setinst(pkg.cpv, pkg.metadata) settings.lock() except portage.exception.InvalidDependString, e: show_invalid_depstring_notice( pkg, pkg.metadata["PROVIDE"], str(e)) del e return 0 if pkg.installed: # Warn if an installed package is masked and it # is pulled into the graph. if not visible(pkgsettings, pkg): self._masked_installed.append((pkg, pkgsettings)) if args: self._set_nodes.add(pkg) # Do this even when addme is False (--onlydeps) so that the # parent/child relationship is always known in case # self._show_slot_collision_notice() needs to be called later. if pkg.onlydeps: self.digraph.add(pkg, myparent, priority=priority) if args: for arg in args: self.digraph.add(pkg, arg, priority=priority) """ This section determines whether we go deeper into dependencies or not. We want to go deeper on a few occasions: Installing package A, we need to make sure package A's deps are met. emerge --deep ; we need to recursively check dependencies of pkgspec If we are in --nodeps (no recursion) mode, we obviously only check 1 level of dependencies. """ dep_stack = self._dep_stack if "recurse" not in self.myparams: return 1 elif pkg.installed and \ "deep" not in self.myparams: dep_stack = self._ignored_deps self.spinner.update() if args: depth = 0 pkg.depth = depth dep_stack.append(pkg) return 1 def _add_pkg_deps(self, pkg, allow_unsatisfied=False): mytype = pkg.type_name myroot = pkg.root mykey = pkg.cpv metadata = pkg.metadata myuse = metadata["USE"].split() jbigkey = pkg depth = pkg.depth + 1 edepend={} depkeys = ["DEPEND","RDEPEND","PDEPEND"] for k in depkeys: edepend[k] = metadata[k] if not pkg.built and \ "--buildpkgonly" in self.myopts and \ "deep" not in self.myparams and \ "empty" not in self.myparams: edepend["RDEPEND"] = "" edepend["PDEPEND"] = "" bdeps_satisfied = False if mytype in ("installed", "binary"): if self.myopts.get("--with-bdeps", "n") == "y": # Pull in build time deps as requested, but marked them as # "satisfied" since they are not strictly required. This allows # more freedom in the merge order calculation for solving # circular dependencies. Don't convert to PDEPEND since that # could make --with-bdeps=y less effective if it is used to # adjust merge order to prevent built_with_use() calls from # failing. bdeps_satisfied = True else: # built packages do not have build time dependencies. edepend["DEPEND"] = "" deps = ( ("/", edepend["DEPEND"], DepPriority(buildtime=True, satisfied=bdeps_satisfied)), (myroot, edepend["RDEPEND"], DepPriority(runtime=True)), (myroot, edepend["PDEPEND"], DepPriority(runtime_post=True)) ) debug = "--debug" in self.myopts strict = mytype != "installed" try: for dep_root, dep_string, dep_priority in deps: if pkg.onlydeps: # Decrease priority so that --buildpkgonly # hasallzeros() works correctly. dep_priority = DepPriority() if not dep_string: continue if debug: print print "Parent: ", jbigkey print "Depstring:", dep_string print "Priority:", dep_priority vardb = self.roots[dep_root].trees["vartree"].dbapi try: selected_atoms = self._select_atoms(dep_root, dep_string, myuse=myuse, parent=pkg, strict=strict) except portage.exception.InvalidDependString, e: show_invalid_depstring_notice(jbigkey, dep_string, str(e)) return 0 if debug: print "Candidates:", selected_atoms for atom in selected_atoms: blocker = atom.startswith("!") if blocker: atom = atom[1:] mypriority = dep_priority.copy() if not blocker and vardb.match(atom): mypriority.satisfied = True if not self._add_dep(Dependency(atom=atom, blocker=blocker, depth=depth, parent=pkg, priority=mypriority, root=dep_root), allow_unsatisfied=allow_unsatisfied): return 0 if debug: print "Exiting...", jbigkey except ValueError, e: if not e.args or not isinstance(e.args[0], list) or \ len(e.args[0]) < 2: raise pkgs = e.args[0] portage.writemsg("\n\n!!! An atom in the dependencies " + \ "is not fully-qualified. Multiple matches:\n\n", noiselevel=-1) for cpv in pkgs: portage.writemsg(" %s\n" % cpv, noiselevel=-1) portage.writemsg("\n", noiselevel=-1) if mytype == "binary": portage.writemsg( "!!! This binary package cannot be installed: '%s'\n" % \ mykey, noiselevel=-1) elif mytype == "ebuild": portdb = self.roots[myroot].trees["porttree"].dbapi myebuild, mylocation = portdb.findname2(mykey) portage.writemsg("!!! This ebuild cannot be installed: " + \ "'%s'\n" % myebuild, noiselevel=-1) portage.writemsg("!!! Please notify the package maintainer " + \ "that atoms must be fully-qualified.\n", noiselevel=-1) return 0 return 1 def _dep_expand(self, root_config, atom_without_category): """ @param root_config: a root config instance @type root_config: RootConfig @param atom_without_category: an atom without a category component @type atom_without_category: String @rtype: list @returns: a list of atoms containing categories (possibly empty) """ null_cp = portage.dep_getkey(insert_category_into_atom( atom_without_category, "null")) cat, atom_pn = portage.catsplit(null_cp) cp_set = set() for db, pkg_type, built, installed, db_keys in \ self._filtered_trees[root_config.root]["dbs"]: cp_set.update(db.cp_all()) for cp in list(cp_set): cat, pn = portage.catsplit(cp) if pn != atom_pn: cp_set.discard(cp) deps = [] for cp in cp_set: cat, pn = portage.catsplit(cp) deps.append(insert_category_into_atom( atom_without_category, cat)) return deps def _have_new_virt(self, root, atom_cp): ret = False for db, pkg_type, built, installed, db_keys in \ self._filtered_trees[root]["dbs"]: if db.cp_list(atom_cp): ret = True break return ret def _iter_atoms_for_pkg(self, pkg): # TODO: add multiple $ROOT support if pkg.root != self.target_root: return atom_arg_map = self._atom_arg_map root_config = self.roots[pkg.root] for atom in self._set_atoms.iterAtomsForPackage(pkg): atom_cp = portage.dep_getkey(atom) if atom_cp != pkg.cp and \ self._have_new_virt(pkg.root, atom_cp): continue visible_pkgs = root_config.visible_pkgs.match_pkgs(atom) visible_pkgs.reverse() # descending order higher_slot = None for visible_pkg in visible_pkgs: if visible_pkg.cp != atom_cp: continue if pkg >= visible_pkg: # This is descending order, and we're not # interested in any versions <= pkg given. break if pkg.slot_atom != visible_pkg.slot_atom: higher_slot = visible_pkg break if higher_slot is not None: continue for arg in atom_arg_map[(atom, pkg.root)]: if isinstance(arg, PackageArg) and \ arg.package != pkg: continue yield arg, atom def select_files(self, myfiles): """Given a list of .tbz2s, .ebuilds sets, and deps, create the appropriate depgraph and return a favorite list.""" root_config = self.roots[self.target_root] sets = root_config.sets getSetAtoms = root_config.setconfig.getSetAtoms oneshot = "--oneshot" in self.myopts or \ "--onlydeps" in self.myopts myfavorites=[] myroot = self.target_root dbs = self._filtered_trees[myroot]["dbs"] vardb = self.trees[myroot]["vartree"].dbapi portdb = self.trees[myroot]["porttree"].dbapi bindb = self.trees[myroot]["bintree"].dbapi pkgsettings = self.pkgsettings[myroot] args = [] onlydeps = "--onlydeps" in self.myopts for x in myfiles: ext = os.path.splitext(x)[1] if ext==".tbz2": if not os.path.exists(x): if os.path.exists( os.path.join(pkgsettings["PKGDIR"], "All", x)): x = os.path.join(pkgsettings["PKGDIR"], "All", x) elif os.path.exists( os.path.join(pkgsettings["PKGDIR"], x)): x = os.path.join(pkgsettings["PKGDIR"], x) else: print "\n\n!!! Binary package '"+str(x)+"' does not exist." print "!!! Please ensure the tbz2 exists as specified.\n" return 0, myfavorites mytbz2=portage.xpak.tbz2(x) mykey=mytbz2.getelements("CATEGORY")[0]+"/"+os.path.splitext(os.path.basename(x))[0] if os.path.realpath(x) != \ os.path.realpath(self.trees[myroot]["bintree"].getname(mykey)): print colorize("BAD", "\n*** You need to adjust PKGDIR to emerge this package.\n") return 0, myfavorites metadata = dict(izip(self._mydbapi_keys, bindb.aux_get(mykey, self._mydbapi_keys))) pkg = Package(type_name="binary", root=myroot, cpv=mykey, built=True, metadata=metadata, onlydeps=onlydeps) self._pkg_cache[pkg] = pkg args.append(PackageArg(arg=x, package=pkg, root_config=root_config)) elif ext==".ebuild": ebuild_path = portage.util.normalize_path(os.path.abspath(x)) pkgdir = os.path.dirname(ebuild_path) tree_root = os.path.dirname(os.path.dirname(pkgdir)) cp = pkgdir[len(tree_root)+1:] e = portage.exception.PackageNotFound( ("%s is not in a valid portage tree " + \ "hierarchy or does not exist") % x) if not portage.isvalidatom(cp): raise e cat = portage.catsplit(cp)[0] mykey = cat + "/" + os.path.basename(ebuild_path[:-7]) if not portage.isvalidatom("="+mykey): raise e ebuild_path = portdb.findname(mykey) if ebuild_path: if ebuild_path != os.path.join(os.path.realpath(tree_root), cp, os.path.basename(ebuild_path)): print colorize("BAD", "\n*** You need to adjust PORTDIR or PORTDIR_OVERLAY to emerge this package.\n") return 0, myfavorites if mykey not in portdb.xmatch( "match-visible", portage.dep_getkey(mykey)): print colorize("BAD", "\n*** You are emerging a masked package. It is MUCH better to use") print colorize("BAD", "*** /etc/portage/package.* to accomplish this. See portage(5) man") print colorize("BAD", "*** page for details.") countdown(int(self.settings["EMERGE_WARNING_DELAY"]), "Continuing...") else: raise portage.exception.PackageNotFound( "%s is not in a valid portage tree hierarchy or does not exist" % x) metadata = dict(izip(self._mydbapi_keys, portdb.aux_get(mykey, self._mydbapi_keys))) pkgsettings.setcpv(mykey, mydb=metadata) metadata["USE"] = pkgsettings["PORTAGE_USE"] pkg = Package(type_name="ebuild", root=myroot, cpv=mykey, metadata=metadata, onlydeps=onlydeps) self._pkg_cache[pkg] = pkg args.append(PackageArg(arg=x, package=pkg, root_config=root_config)) elif x.startswith(os.path.sep): if not x.startswith(myroot): portage.writemsg(("\n\n!!! '%s' does not start with" + \ " $ROOT.\n") % x, noiselevel=-1) return 0, [] relative_path = x[len(myroot):] vartree = self._trees_orig[myroot]["vartree"] owner_cpv = None for cpv in vardb.cpv_all(): self.spinner.update() cat, pf = portage.catsplit(cpv) if portage.dblink(cat, pf, myroot, pkgsettings, vartree=vartree).isowner( relative_path, myroot): owner_cpv = cpv break if owner_cpv is None: portage.writemsg(("\n\n!!! '%s' is not claimed " + \ "by any package.\n") % x, noiselevel=-1) return 0, [] slot = vardb.aux_get(owner_cpv, ["SLOT"])[0] if not slot: # portage now masks packages with missing slot, but it's # possible that one was installed by an older version atom = portage.cpv_getkey(owner_cpv) else: atom = "%s:%s" % (portage.cpv_getkey(owner_cpv), slot) args.append(AtomArg(arg=atom, atom=atom, root_config=root_config)) else: if x in ("system", "world"): x = SETPREFIX + x if x.startswith(SETPREFIX): s = x[len(SETPREFIX):] if s not in sets: raise portage.exception.PackageNotFound( "emerge: there are no sets to satisfy '%s'." % s) if s in self._sets: continue # Recursively expand sets so that containment tests in # self._get_parent_sets() properly match atoms in nested # sets (like if world contains system). expanded_set = InternalPackageSet( initial_atoms=getSetAtoms(s)) self._sets[s] = expanded_set args.append(SetArg(arg=x, set=expanded_set, root_config=root_config)) if not oneshot: myfavorites.append(x) continue if not is_valid_package_atom(x): portage.writemsg("\n\n!!! '%s' is not a valid package atom.\n" % x, noiselevel=-1) portage.writemsg("!!! Please check ebuild(5) for full details.\n") portage.writemsg("!!! (Did you specify a version but forget to prefix with '='?)\n") return (0,[]) # Don't expand categories or old-style virtuals here unless # necessary. Expansion of old-style virtuals here causes at # least the following problems: # 1) It's more difficult to determine which set(s) an atom # came from, if any. # 2) It takes away freedom from the resolver to choose other # possible expansions when necessary. if "/" in x: args.append(AtomArg(arg=x, atom=x, root_config=root_config)) continue expanded_atoms = self._dep_expand(root_config, x) installed_cp_set = set() for atom in expanded_atoms: atom_cp = portage.dep_getkey(atom) if vardb.cp_list(atom_cp): installed_cp_set.add(atom_cp) if len(expanded_atoms) > 1 and len(installed_cp_set) == 1: installed_cp = iter(installed_cp_set).next() expanded_atoms = [atom for atom in expanded_atoms \ if portage.dep_getkey(atom) == installed_cp] if len(expanded_atoms) > 1: print "\n\n!!! The short ebuild name \"" + x + "\" is ambiguous. Please specify" print "!!! one of the following fully-qualified ebuild names instead:\n" expanded_atoms = set(portage.dep_getkey(atom) \ for atom in expanded_atoms) for i in sorted(expanded_atoms): print " " + green(i) print return False, myfavorites if expanded_atoms: atom = expanded_atoms[0] else: null_atom = insert_category_into_atom(x, "null") null_cp = portage.dep_getkey(null_atom) cat, atom_pn = portage.catsplit(null_cp) virts_p = root_config.settings.get_virts_p().get(atom_pn) if virts_p: # Allow the depgraph to choose which virtual. atom = insert_category_into_atom(x, "virtual") else: atom = insert_category_into_atom(x, "null") args.append(AtomArg(arg=x, atom=atom, root_config=root_config)) if "--update" in self.myopts: # Enable greedy SLOT atoms for atoms given as arguments. # This is currently disabled for sets since greedy SLOT # atoms could be a property of the set itself. greedy_atoms = [] for arg in args: # In addition to any installed slots, also try to pull # in the latest new slot that may be available. greedy_atoms.append(arg) if not isinstance(arg, (AtomArg, PackageArg)): continue atom_cp = portage.dep_getkey(arg.atom) slots = set() for cpv in vardb.match(arg.atom): slots.add(vardb.aux_get(cpv, ["SLOT"])[0]) for slot in slots: greedy_atoms.append( AtomArg(arg=arg.arg, atom="%s:%s" % (atom_cp, slot), root_config=root_config)) args = greedy_atoms del greedy_atoms # Create the "args" package set from atoms and # packages given as arguments. args_set = self._sets["args"] for arg in args: if not isinstance(arg, (AtomArg, PackageArg)): continue myatom = arg.atom if myatom in args_set: continue args_set.add(myatom) if not oneshot: myfavorites.append(myatom) self._set_atoms.update(chain(*self._sets.itervalues())) atom_arg_map = self._atom_arg_map for arg in args: for atom in arg.set: atom_key = (atom, myroot) refs = atom_arg_map.get(atom_key) if refs is None: refs = [] atom_arg_map[atom_key] = refs if arg not in refs: refs.append(arg) pprovideddict = pkgsettings.pprovideddict # Order needs to be preserved since a feature of --nodeps # is to allow the user to force a specific merge order. args.reverse() while args: arg = args.pop() for atom in arg.set: self.spinner.update() atom_cp = portage.dep_getkey(atom) try: pprovided = pprovideddict.get(portage.dep_getkey(atom)) if pprovided and portage.match_from_list(atom, pprovided): # A provided package has been specified on the command line. self._pprovided_args.append((arg, atom)) continue if isinstance(arg, PackageArg): if not self._add_pkg(arg.package, arg) or \ not self._create_graph(): sys.stderr.write(("\n\n!!! Problem resolving " + \ "dependencies for %s\n") % arg.arg) return 0, myfavorites continue pkg, existing_node = self._select_package( myroot, atom, onlydeps=onlydeps) if not pkg: if not (isinstance(arg, SetArg) and \ arg.name in ("system", "world")): self._unsatisfied_deps_for_display.append( ((myroot, atom), {})) return 0, myfavorites self._missing_args.append((arg, atom)) continue if atom_cp != pkg.cp: # For old-style virtuals, we need to repeat the # package.provided check against the selected package. expanded_atom = atom.replace(atom_cp, pkg.cp) pprovided = pprovideddict.get(pkg.cp) if pprovided and \ portage.match_from_list(expanded_atom, pprovided): # A provided package has been # specified on the command line. self._pprovided_args.append((arg, atom)) continue if pkg.installed and "selective" not in self.myparams: self._unsatisfied_deps_for_display.append( ((myroot, atom), {})) # Previous behavior was to bail out in this case, but # since the dep is satisfied by the installed package, # it's more friendly to continue building the graph # and just show a warning message. Therefore, only bail # out here if the atom is not from either the system or # world set. if not (isinstance(arg, SetArg) and \ arg.name in ("system", "world")): return 0, myfavorites dep = Dependency(atom=atom, onlydeps=onlydeps, root=myroot, parent=arg) # Add the selected package to the graph as soon as possible # so that later dep_check() calls can use it as feedback # for making more consistent atom selections. if not self._add_pkg(pkg, dep.parent, priority=dep.priority, depth=dep.depth): if isinstance(arg, SetArg): sys.stderr.write(("\n\n!!! Problem resolving " + \ "dependencies for %s from %s\n") % \ (atom, arg.arg)) else: sys.stderr.write(("\n\n!!! Problem resolving " + \ "dependencies for %s\n") % atom) return 0, myfavorites except portage.exception.MissingSignature, e: portage.writemsg("\n\n!!! A missing gpg signature is preventing portage from calculating the\n") portage.writemsg("!!! required dependencies. This is a security feature enabled by the admin\n") portage.writemsg("!!! to aid in the detection of malicious intent.\n\n") portage.writemsg("!!! THIS IS A POSSIBLE INDICATION OF TAMPERED FILES -- CHECK CAREFULLY.\n") portage.writemsg("!!! Affected file: %s\n" % (e), noiselevel=-1) return 0, myfavorites except portage.exception.InvalidSignature, e: portage.writemsg("\n\n!!! An invalid gpg signature is preventing portage from calculating the\n") portage.writemsg("!!! required dependencies. This is a security feature enabled by the admin\n") portage.writemsg("!!! to aid in the detection of malicious intent.\n\n") portage.writemsg("!!! THIS IS A POSSIBLE INDICATION OF TAMPERED FILES -- CHECK CAREFULLY.\n") portage.writemsg("!!! Affected file: %s\n" % (e), noiselevel=-1) return 0, myfavorites except SystemExit, e: raise # Needed else can't exit except Exception, e: print >> sys.stderr, "\n\n!!! Problem in '%s' dependencies." % atom print >> sys.stderr, "!!!", str(e), getattr(e, "__module__", None) raise # Now that the root packages have been added to the graph, # process the dependencies. if not self._create_graph(): return 0, myfavorites missing=0 if "--usepkgonly" in self.myopts: for xs in self.digraph.all_nodes(): if not isinstance(xs, Package): continue if len(xs) >= 4 and xs[0] != "binary" and xs[3] == "merge": if missing == 0: print missing += 1 print "Missing binary for:",xs[2] try: self.altlist() except self._unknown_internal_error: return False, myfavorites # We're true here unless we are missing binaries. return (not missing,myfavorites) def _select_atoms_from_graph(self, *pargs, **kwargs): """ Prefer atoms matching packages that have already been added to the graph or those that are installed and have not been scheduled for replacement. """ kwargs["trees"] = self._graph_trees return self._select_atoms_highest_available(*pargs, **kwargs) def _select_atoms_highest_available(self, root, depstring, myuse=None, parent=None, strict=True, trees=None): """This will raise InvalidDependString if necessary. If trees is None then self._filtered_trees is used.""" pkgsettings = self.pkgsettings[root] if trees is None: trees = self._filtered_trees if True: try: if parent is not None: trees[root]["parent"] = parent if not strict: portage.dep._dep_check_strict = False mycheck = portage.dep_check(depstring, None, pkgsettings, myuse=myuse, myroot=root, trees=trees) finally: if parent is not None: trees[root].pop("parent") portage.dep._dep_check_strict = True if not mycheck[0]: raise portage.exception.InvalidDependString(mycheck[1]) selected_atoms = mycheck[1] return selected_atoms def _show_unsatisfied_dep(self, root, atom, myparent=None, arg=None): xinfo = '"%s"' % atom if arg: xinfo='"%s"' % arg # Discard null/ from failed cpv_expand category expansion. xinfo = xinfo.replace("null/", "") if myparent: xfrom = '(dependency required by '+ \ green('"%s"' % myparent[2]) + \ red(' [%s]' % myparent[0]) + ')' masked_packages = [] missing_licenses = [] have_eapi_mask = False pkgsettings = self.pkgsettings[root] root_config = self.roots[root] portdb = self.roots[root].trees["porttree"].dbapi dbs = self._filtered_trees[root]["dbs"] for db, pkg_type, built, installed, db_keys in dbs: if installed: continue match = db.match if hasattr(db, "xmatch"): cpv_list = db.xmatch("match-all", atom) else: cpv_list = db.match(atom) # descending order cpv_list.reverse() for cpv in cpv_list: metadata, mreasons = get_mask_info(root_config, cpv, pkgsettings, db, pkg_type, built, installed, db_keys) masked_packages.append( (root_config, pkgsettings, cpv, metadata, mreasons)) if masked_packages: print "\n!!! "+red("All ebuilds that could satisfy ")+green(xinfo)+red(" have been masked.") print "!!! One of the following masked packages is required to complete your request:" have_eapi_mask = show_masked_packages(masked_packages) if have_eapi_mask: print msg = ("The current version of portage supports " + \ "EAPI '%s'. You must upgrade to a newer version" + \ " of portage before EAPI masked packages can" + \ " be installed.") % portage.const.EAPI from textwrap import wrap for line in wrap(msg, 75): print line print show_mask_docs() else: print "\nemerge: there are no ebuilds to satisfy "+green(xinfo)+"." if myparent: print xfrom print def _select_pkg_highest_available(self, root, atom, onlydeps=False): cache_key = (root, atom, onlydeps) ret = self._highest_pkg_cache.get(cache_key) if ret is not None: pkg, existing = ret if pkg and not existing: existing = self._slot_pkg_map[root].get(pkg.slot_atom) if existing and existing == pkg: # Update the cache to reflect that the # package has been added to the graph. ret = pkg, pkg self._highest_pkg_cache[cache_key] = ret return ret ret = self._select_pkg_highest_available_imp(root, atom, onlydeps=onlydeps) self._highest_pkg_cache[cache_key] = ret return ret def _select_pkg_highest_available_imp(self, root, atom, onlydeps=False): pkgsettings = self.pkgsettings[root] dbs = self._filtered_trees[root]["dbs"] vardb = self.roots[root].trees["vartree"].dbapi portdb = self.roots[root].trees["porttree"].dbapi # List of acceptable packages, ordered by type preference. matched_packages = [] highest_version = None atom_cp = portage.dep_getkey(atom) existing_node = None myeb = None usepkgonly = "--usepkgonly" in self.myopts empty = "empty" in self.myparams selective = "selective" in self.myparams reinstall = False noreplace = "--noreplace" in self.myopts # Behavior of the "selective" parameter depends on # whether or not a package matches an argument atom. # If an installed package provides an old-style # virtual that is no longer provided by an available # package, the installed package may match an argument # atom even though none of the available packages do. # Therefore, "selective" logic does not consider # whether or not an installed package matches an # argument atom. It only considers whether or not # available packages match argument atoms, which is # represented by the found_available_arg flag. found_available_arg = False for find_existing_node in True, False: if existing_node: break for db, pkg_type, built, installed, db_keys in dbs: if existing_node: break if installed and not find_existing_node: want_reinstall = reinstall or empty or \ (found_available_arg and not selective) if want_reinstall and matched_packages: continue if hasattr(db, "xmatch"): cpv_list = db.xmatch("match-all", atom) else: cpv_list = db.match(atom) if not cpv_list: continue pkg_status = "merge" if installed or onlydeps: pkg_status = "nomerge" # descending order cpv_list.reverse() for cpv in cpv_list: # Make --noreplace take precedence over --newuse. if not installed and noreplace and \ cpv in vardb.match(atom): # If the installed version is masked, it may # be necessary to look at lower versions, # in case there is a visible downgrade. continue reinstall_for_flags = None cache_key = (pkg_type, root, cpv, pkg_status) calculated_use = True pkg = self._pkg_cache.get(cache_key) if pkg is None: calculated_use = False try: metadata = dict(izip(self._mydbapi_keys, db.aux_get(cpv, self._mydbapi_keys))) except KeyError: continue if not built and ("?" in metadata["LICENSE"] or \ "?" in metadata["PROVIDE"]): # This is avoided whenever possible because # it's expensive. It only needs to be done here # if it has an effect on visibility. pkgsettings.setcpv(cpv, mydb=metadata) metadata["USE"] = pkgsettings["PORTAGE_USE"] calculated_use = True pkg = Package(built=built, cpv=cpv, installed=installed, metadata=metadata, onlydeps=onlydeps, root=root, type_name=pkg_type) self._pkg_cache[pkg] = pkg myarg = None if root == self.target_root: try: myarg = self._iter_atoms_for_pkg(pkg).next() except StopIteration: pass except portage.exception.InvalidDependString: if not installed: # masked by corruption continue if not installed and myarg: found_available_arg = True if not installed or (installed and matched_packages): # Only enforce visibility on installed packages # if there is at least one other visible package # available. By filtering installed masked packages # here, packages that have been masked since they # were installed can be automatically downgraded # to an unmasked version. try: if not visible(pkgsettings, pkg): continue except portage.exception.InvalidDependString: continue # Enable upgrade or downgrade to a version # with visible KEYWORDS when the installed # version is masked by KEYWORDS, but never # reinstall the same exact version only due # to a KEYWORDS mask. if installed and matched_packages and \ pkgsettings.getMissingKeywords( pkg.cpv, pkg.metadata): different_version = None for avail_pkg in matched_packages: if not portage.dep.cpvequal( pkg.cpv, avail_pkg.cpv): different_version = avail_pkg break if different_version is not None: # Only reinstall for KEYWORDS if # it's not the same version. continue if not built and not calculated_use: # This is avoided whenever possible because # it's expensive. pkgsettings.setcpv(cpv, mydb=pkg.metadata) pkg.metadata["USE"] = pkgsettings["PORTAGE_USE"] if pkg.cp == atom_cp: if highest_version is None: highest_version = pkg elif pkg > highest_version: highest_version = pkg # At this point, we've found the highest visible # match from the current repo. Any lower versions # from this repo are ignored, so this so the loop # will always end with a break statement below # this point. if find_existing_node: e_pkg = self._slot_pkg_map[root].get(pkg.slot_atom) if not e_pkg: break cpv_slot = "%s:%s" % \ (e_pkg.cpv, e_pkg.metadata["SLOT"]) if portage.dep.match_from_list(atom, [cpv_slot]): if highest_version and \ e_pkg.cp == atom_cp and \ e_pkg < highest_version and \ e_pkg.slot_atom != highest_version.slot_atom: # There is a higher version available in a # different slot, so this existing node is # irrelevant. pass else: matched_packages.append(e_pkg) existing_node = e_pkg break # Compare built package to current config and # reject the built package if necessary. if built and not installed and \ ("--newuse" in self.myopts or \ "--reinstall" in self.myopts): iuses = set(filter_iuse_defaults( pkg.metadata["IUSE"].split())) old_use = pkg.metadata["USE"].split() mydb = pkg.metadata if myeb and not usepkgonly: mydb = portdb if myeb: pkgsettings.setcpv(myeb, mydb=mydb) else: pkgsettings.setcpv(cpv, mydb=mydb) now_use = pkgsettings["PORTAGE_USE"].split() forced_flags = set() forced_flags.update(pkgsettings.useforce) forced_flags.update(pkgsettings.usemask) cur_iuse = iuses if myeb and not usepkgonly: cur_iuse = set(filter_iuse_defaults( portdb.aux_get(myeb, ["IUSE"])[0].split())) if self._reinstall_for_flags(forced_flags, old_use, iuses, now_use, cur_iuse): break # Compare current config to installed package # and do not reinstall if possible. if not installed and \ ("--newuse" in self.myopts or \ "--reinstall" in self.myopts) and \ cpv in vardb.match(atom): pkgsettings.setcpv(cpv, mydb=pkg.metadata) forced_flags = set() forced_flags.update(pkgsettings.useforce) forced_flags.update(pkgsettings.usemask) old_use = vardb.aux_get(cpv, ["USE"])[0].split() old_iuse = set(filter_iuse_defaults( vardb.aux_get(cpv, ["IUSE"])[0].split())) cur_use = pkgsettings["PORTAGE_USE"].split() cur_iuse = set(filter_iuse_defaults( pkg.metadata["IUSE"].split())) reinstall_for_flags = \ self._reinstall_for_flags( forced_flags, old_use, old_iuse, cur_use, cur_iuse) if reinstall_for_flags: reinstall = True if not installed: must_reinstall = empty or \ (myarg and not selective) if not reinstall_for_flags and \ not must_reinstall and \ cpv in vardb.match(atom): # If the installed version is masked, it may # be necessary to look at lower versions, # in case there is a visible downgrade. continue if not built: myeb = cpv matched_packages.append(pkg) if reinstall_for_flags: self._reinstall_nodes[pkg] = \ reinstall_for_flags break if not matched_packages: return None, None if "--debug" in self.myopts: for pkg in matched_packages: print (pkg.type_name + ":").rjust(10), pkg.cpv # Filter out any old-style virtual matches if they are # mixed with new-style virtual matches. cp = portage.dep_getkey(atom) if len(matched_packages) > 1 and \ "virtual" == portage.catsplit(cp)[0]: for pkg in matched_packages: if pkg.cp != cp: continue # Got a new-style virtual, so filter # out any old-style virtuals. matched_packages = [pkg for pkg in matched_packages \ if pkg.cp == cp] break if len(matched_packages) > 1: bestmatch = portage.best( [pkg.cpv for pkg in matched_packages]) matched_packages = [pkg for pkg in matched_packages \ if portage.dep.cpvequal(pkg.cpv, bestmatch)] # ordered by type preference ("ebuild" type is the last resort) return matched_packages[-1], existing_node def _select_pkg_from_graph(self, root, atom, onlydeps=False): """ Select packages that have already been added to the graph or those that are installed and have not been scheduled for replacement. """ graph_db = self._graph_trees[root]["porttree"].dbapi matches = graph_db.match(atom) if not matches: return None, None cpv = matches[-1] # highest match slot_atom = "%s:%s" % (portage.cpv_getkey(cpv), graph_db.aux_get(cpv, ["SLOT"])[0]) e_pkg = self._slot_pkg_map[root].get(slot_atom) if e_pkg: return e_pkg, e_pkg # Since this cpv exists in the graph_db, # we must have a cached Package instance. cache_key = ("installed", root, cpv, "nomerge") return (self._pkg_cache[cache_key], None) def _complete_graph(self): """ Add any deep dependencies of required sets (args, system, world) that have not been pulled into the graph yet. This ensures that the graph is consistent such that initially satisfied deep dependencies are not broken in the new graph. Initially unsatisfied dependencies are irrelevant since we only want to avoid breaking dependencies that are intially satisfied. Since this method can consume enough time to disturb users, it is currently only enabled by the --complete-graph option. """ if "complete" not in self.myparams: # Skip this to avoid consuming enough time to disturb users. return 1 if "--buildpkgonly" in self.myopts or \ "recurse" not in self.myparams: return 1 # Put the depgraph into a mode that causes it to only # select packages that have already been added to the # graph or those that are installed and have not been # scheduled for replacement. Also, toggle the "deep" # parameter so that all dependencies are traversed and # accounted for. self._select_atoms = self._select_atoms_from_graph self._select_package = self._select_pkg_from_graph already_deep = "deep" in self.myparams if not already_deep: self.myparams.add("deep") for root in self.roots: required_set_names = self._required_set_names.copy() if root == self.target_root and \ (already_deep or "empty" in self.myparams): required_set_names.difference_update(self._sets) if not required_set_names and not self._ignored_deps: continue root_config = self.roots[root] setconfig = root_config.setconfig args = [] # Reuse existing SetArg instances when available. for arg in self.digraph.root_nodes(): if not isinstance(arg, SetArg): continue if arg.root_config != root_config: continue if arg.name in required_set_names: args.append(arg) required_set_names.remove(arg.name) # Create new SetArg instances only when necessary. for s in required_set_names: expanded_set = InternalPackageSet( initial_atoms=setconfig.getSetAtoms(s)) atom = SETPREFIX + s args.append(SetArg(arg=atom, set=expanded_set, root_config=root_config)) vardb = root_config.trees["vartree"].dbapi for arg in args: for atom in arg.set: self._dep_stack.append( Dependency(atom=atom, root=root, parent=arg)) if self._ignored_deps: self._dep_stack.extend(self._ignored_deps) self._ignored_deps = [] if not self._create_graph(allow_unsatisfied=True): return 0 # Check the unsatisfied deps to see if any initially satisfied deps # will become unsatisfied due to an upgrade. Initially unsatisfied # deps are irrelevant since we only want to avoid breaking deps # that are initially satisfied. while self._unsatisfied_deps: dep = self._unsatisfied_deps.pop() matches = vardb.match(dep.atom) if not matches: # Initially unsatisfied. continue # An scheduled installation broke a deep dependency. # Add the installed package to the graph so that it # will be appropriately reported as a slot collision # (possibly solvable via backtracking). cpv = matches[-1] # highest match metadata = dict(izip(self._mydbapi_keys, vardb.aux_get(cpv, self._mydbapi_keys))) pkg = Package(type_name="installed", root=root, cpv=cpv, metadata=metadata, built=True, installed=True) if not self._add_pkg(pkg, dep.parent, priority=dep.priority, depth=dep.depth): return 0 if not self._create_graph(allow_unsatisfied=True): return 0 return 1 def validate_blockers(self): """Remove any blockers from the digraph that do not match any of the packages within the graph. If necessary, create hard deps to ensure correct merge order such that mutually blocking packages are never installed simultaneously.""" if "--buildpkgonly" in self.myopts or \ "--nodeps" in self.myopts: return True modified_slots = {} for myroot in self.trees: myslots = {} modified_slots[myroot] = myslots final_db = self.mydbapi[myroot] for pkg in self._slot_pkg_map[myroot].itervalues(): if not (pkg.installed or pkg.onlydeps): myslots[pkg.slot_atom] = pkg.cpv #if "deep" in self.myparams: if True: # Pull in blockers from all installed packages that haven't already # been pulled into the depgraph. This is not enabled by default # due to the performance penalty that is incurred by all the # additional dep_check calls that are required. dep_keys = ["DEPEND","RDEPEND","PDEPEND"] for myroot in self.trees: vardb = self.trees[myroot]["vartree"].dbapi portdb = self.trees[myroot]["porttree"].dbapi pkgsettings = self.pkgsettings[myroot] final_db = self.mydbapi[myroot] cpv_all_installed = self.trees[myroot]["vartree"].dbapi.cpv_all() blocker_cache = BlockerCache(myroot, vardb) for cpv in cpv_all_installed: blocker_atoms = None pkg = self._pkg_cache[ ("installed", myroot, cpv, "nomerge")] blockers = None if self.digraph.contains(pkg): try: blockers = self._blocker_parents.child_nodes(pkg) except KeyError: blockers = [] if blockers is not None: blockers = set("!" + blocker.atom \ for blocker in blockers) # If this node has any blockers, create a "nomerge" # node for it so that they can be enforced. self.spinner.update() blocker_data = blocker_cache.get(cpv) # If blocker data from the graph is available, use # it to validate the cache and update the cache if # it seems invalid. if blocker_data is not None and \ blockers is not None: if not blockers.symmetric_difference( blocker_data.atoms): continue blocker_data = None if blocker_data is None and \ blockers is not None: # Re-use the blockers from the graph. blocker_atoms = sorted(blockers) counter = long(pkg.metadata["COUNTER"]) blocker_data = \ blocker_cache.BlockerData(counter, blocker_atoms) blocker_cache[pkg.cpv] = blocker_data continue if blocker_data: blocker_atoms = blocker_data.atoms else: myuse = pkg.metadata["USE"].split() depstr = " ".join(pkg.metadata[k] for k in dep_keys) # It is crucial to pass in final_db here in order to # optimize dep_check calls by eliminating atoms via # dep_wordreduce and dep_eval calls. try: portage.dep._dep_check_strict = False try: success, atoms = portage.dep_check(depstr, final_db, pkgsettings, myuse=myuse, trees=self._graph_trees, myroot=myroot) except Exception, e: if isinstance(e, SystemExit): raise # This is helpful, for example, if a ValueError # is thrown from cpv_expand due to multiple # matches (this can happen if an atom lacks a # category). show_invalid_depstring_notice( pkg, depstr, str(e)) del e raise finally: portage.dep._dep_check_strict = True if not success: if pkg.slot_atom in modified_slots[myroot]: # This package is being replaced anyway, so # ignore invalid dependencies so as not to # annoy the user too much (otherwise they'd be # forced to manually unmerge it first). continue show_invalid_depstring_notice(pkg, depstr, atoms) return False blocker_atoms = [myatom for myatom in atoms \ if myatom.startswith("!")] blocker_atoms.sort() counter = long(pkg.metadata["COUNTER"]) blocker_cache[cpv] = \ blocker_cache.BlockerData(counter, blocker_atoms) if blocker_atoms: for myatom in blocker_atoms: blocker = Blocker(atom=myatom[1:], root=myroot) self._blocker_parents.add(blocker, pkg) blocker_cache.flush() del blocker_cache for blocker in self._blocker_parents.leaf_nodes(): self.spinner.update() root_config = self.roots[blocker.root] virtuals = root_config.settings.getvirtuals() mytype, myroot, mydep = blocker initial_db = self.trees[myroot]["vartree"].dbapi final_db = self.mydbapi[myroot] provider_virtual = False if blocker.cp in virtuals and \ not self._have_new_virt(blocker.root, blocker.cp): provider_virtual = True if provider_virtual: atoms = [] for provider_entry in virtuals[blocker.cp]: provider_cp = \ portage.dep_getkey(provider_entry) atoms.append(blocker.atom.replace( blocker.cp, provider_cp)) else: atoms = [blocker.atom] blocked_initial = [] for atom in atoms: blocked_initial.extend(initial_db.match(atom)) blocked_final = [] for atom in atoms: blocked_final.extend(final_db.match(atom)) if not blocked_initial and not blocked_final: parent_pkgs = self._blocker_parents.parent_nodes(blocker) self._blocker_parents.remove(blocker) # Discard any parents that don't have any more blockers. for pkg in parent_pkgs: if not self._blocker_parents.child_nodes(pkg): self._blocker_parents.remove(pkg) continue blocked_slots_initial = {} blocked_slots_final = {} for cpv in blocked_initial: blocked_slots_initial[cpv] = \ "%s:%s" % (portage.dep_getkey(cpv), initial_db.aux_get(cpv, ["SLOT"])[0]) for cpv in blocked_final: blocked_slots_final[cpv] = \ "%s:%s" % (portage.dep_getkey(cpv), final_db.aux_get(cpv, ["SLOT"])[0]) for parent in self._blocker_parents.parent_nodes(blocker): ptype, proot, pcpv, pstatus = parent pdbapi = self.trees[proot][self.pkg_tree_map[ptype]].dbapi pslot = pdbapi.aux_get(pcpv, ["SLOT"])[0] pslot_atom = "%s:%s" % (portage.dep_getkey(pcpv), pslot) parent_static = pslot_atom not in modified_slots[proot] unresolved_blocks = False depends_on_order = set() for cpv in blocked_initial: slot_atom = blocked_slots_initial[cpv] if slot_atom == pslot_atom: # TODO: Support blocks within slots in cases where it # might make sense. For example, a new version might # require that the old version be uninstalled at build # time. continue if parent.installed: # Two currently installed packages conflict with # eachother. Ignore this case since the damage # is already done and this would be likely to # confuse users if displayed like a normal blocker. continue if pstatus == "merge": # Maybe the blocked package can be replaced or simply # unmerged to resolve this block. inst_pkg = self._pkg_cache[ ("installed", myroot, cpv, "nomerge")] depends_on_order.add((inst_pkg, parent)) continue # None of the above blocker resolutions techniques apply, # so apparently this one is unresolvable. unresolved_blocks = True for cpv in blocked_final: slot_atom = blocked_slots_final[cpv] if slot_atom == pslot_atom: # TODO: Support blocks within slots. continue if parent_static and \ slot_atom not in modified_slots[myroot]: # This blocker will be handled the next time that a # merge of either package is triggered. continue # Maybe the blocking package can be # unmerged to resolve this block. try: blocked_pkg = self._slot_pkg_map[myroot][slot_atom] except KeyError: blocked_pkg = self._pkg_cache[ ("installed", myroot, cpv, "nomerge")] if pstatus == "merge" and blocked_pkg.installed: depends_on_order.add((blocked_pkg, parent)) continue elif pstatus == "nomerge": depends_on_order.add((parent, blocked_pkg)) continue # None of the above blocker resolutions techniques apply, # so apparently this one is unresolvable. unresolved_blocks = True # Make sure we don't unmerge any package that have been pulled # into the graph. if not unresolved_blocks and depends_on_order: for inst_pkg, inst_task in depends_on_order: if self.digraph.contains(inst_pkg) and \ self.digraph.parent_nodes(inst_pkg): unresolved_blocks = True break if not unresolved_blocks and depends_on_order: for inst_pkg, inst_task in depends_on_order: uninst_task = Package(built=inst_pkg.built, cpv=inst_pkg.cpv, installed=inst_pkg.installed, metadata=inst_pkg.metadata, operation="uninstall", root=inst_pkg.root, type_name=inst_pkg.type_name) self._pkg_cache[uninst_task] = uninst_task # Enforce correct merge order with a hard dep. self.digraph.addnode(uninst_task, inst_task, priority=BlockerDepPriority.instance) # Count references to this blocker so that it can be # invalidated after nodes referencing it have been # merged. self._blocker_uninstalls.addnode(uninst_task, blocker) if not unresolved_blocks and not depends_on_order: self._blocker_parents.remove_edge(blocker, parent) if not self._blocker_parents.parent_nodes(blocker): self._blocker_parents.remove(blocker) if not self._blocker_parents.child_nodes(parent): self._blocker_parents.remove(parent) if unresolved_blocks: self._unsolvable_blockers.add(blocker, parent) return True def _accept_collisions(self): acceptable = False for x in ("--buildpkgonly", "--fetchonly", "--fetch-all-uri", "--nodeps", "--pretend"): if x in self.myopts: acceptable = True break return acceptable def _merge_order_bias(self, mygraph): """Order nodes from highest to lowest overall reference count for optimal leaf node selection.""" node_info = {} for node in mygraph.order: node_info[node] = len(mygraph.parent_nodes(node)) def cmp_merge_preference(node1, node2): return node_info[node2] - node_info[node1] mygraph.order.sort(cmp_merge_preference) def altlist(self, reversed=False): while self._serialized_tasks_cache is None: self._resolve_conflicts() try: self._serialized_tasks_cache = self._serialize_tasks() except self._serialize_tasks_retry: pass retlist = self._serialized_tasks_cache[:] if reversed: retlist.reverse() return retlist def _resolve_conflicts(self): if not self._complete_graph(): raise self._unknown_internal_error() if not self.validate_blockers(): raise self._unknown_internal_error() def _serialize_tasks(self): mygraph=self.digraph.copy() # Prune "nomerge" root nodes if nothing depends on them, since # otherwise they slow down merge order calculation. Don't remove # non-root nodes since they help optimize merge order in some cases # such as revdep-rebuild. removed_nodes = set() while True: for node in mygraph.root_nodes(): if not isinstance(node, Package) or \ node.installed or node.onlydeps: removed_nodes.add(node) if removed_nodes: self.spinner.update() mygraph.difference_update(removed_nodes) if not removed_nodes: break removed_nodes.clear() self._merge_order_bias(mygraph) def cmp_circular_bias(n1, n2): """ RDEPEND is stronger than PDEPEND and this function measures such a strength bias within a circular dependency relationship. """ n1_n2_medium = n2 in mygraph.child_nodes(n1, ignore_priority=DepPriority.MEDIUM_SOFT) n2_n1_medium = n1 in mygraph.child_nodes(n2, ignore_priority=DepPriority.MEDIUM_SOFT) if n1_n2_medium == n2_n1_medium: return 0 elif n1_n2_medium: return 1 return -1 myblocker_uninstalls = self._blocker_uninstalls.copy() retlist=[] # Contains any Uninstall tasks that have been ignored # in order to avoid the circular deps code path. These # correspond to blocker conflicts that could not be # resolved. ignored_uninstall_tasks = set() have_uninstall_task = False complete = "complete" in self.myparams myblocker_parents = self._blocker_parents.copy() asap_nodes = [] portage_node = None def get_nodes(**kwargs): """ Returns leaf nodes excluding Uninstall instances since those should be executed as late as possible. """ return [node for node in mygraph.leaf_nodes(**kwargs) \ if isinstance(node, Package) and \ node.operation != "uninstall"] if True: for node in mygraph.order: if node.root == "/" and \ "sys-apps/portage" == portage.cpv_getkey(node.cpv): portage_node = node asap_nodes.append(node) break ignore_priority_soft_range = [None] ignore_priority_soft_range.extend( xrange(DepPriority.MIN, DepPriority.MEDIUM_SOFT + 1)) tree_mode = "--tree" in self.myopts # Tracks whether or not the current iteration should prefer asap_nodes # if available. This is set to False when the previous iteration # failed to select any nodes. It is reset whenever nodes are # successfully selected. prefer_asap = True # By default, try to avoid selecting root nodes whenever possible. This # helps ensure that the maximimum possible number of soft dependencies # have been removed from the graph before their parent nodes have # selected. This is especially important when those dependencies are # going to be rebuilt by revdep-rebuild or `emerge -e system` after the # CHOST has been changed (like when building a stage3 from a stage2). accept_root_node = False # State of prefer_asap and accept_root_node flags for successive # iterations that loosen the criteria for node selection. # # iteration prefer_asap accept_root_node # 1 True False # 2 False False # 3 False True # # If no nodes are selected on the 3rd iteration, it is due to # unresolved blockers or circular dependencies. while not mygraph.empty(): self.spinner.update() selected_nodes = None ignore_priority = None if prefer_asap and asap_nodes: """ASAP nodes are merged before their soft deps.""" asap_nodes = [node for node in asap_nodes \ if mygraph.contains(node)] for node in asap_nodes: if not mygraph.child_nodes(node, ignore_priority=DepPriority.SOFT): selected_nodes = [node] asap_nodes.remove(node) break if not selected_nodes and \ not (prefer_asap and asap_nodes): for ignore_priority in ignore_priority_soft_range: nodes = get_nodes(ignore_priority=ignore_priority) if nodes: break if nodes: if ignore_priority is None and not tree_mode: # Greedily pop all of these nodes since no relationship # has been ignored. This optimization destroys --tree # output, so it's disabled in reversed mode. selected_nodes = nodes else: # For optimal merge order: # * Only pop one node. # * Removing a root node (node without a parent) # will not produce a leaf node, so avoid it. for node in nodes: if mygraph.parent_nodes(node): # found a non-root node selected_nodes = [node] break if not selected_nodes and \ (accept_root_node or ignore_priority is None): # settle for a root node selected_nodes = [nodes[0]] if not selected_nodes: nodes = get_nodes(ignore_priority=DepPriority.MEDIUM) if nodes: """Recursively gather a group of nodes that RDEPEND on eachother. This ensures that they are merged as a group and get their RDEPENDs satisfied as soon as possible.""" def gather_deps(ignore_priority, mergeable_nodes, selected_nodes, node): if node in selected_nodes: return True if node not in mergeable_nodes: return False if node == portage_node and mygraph.child_nodes(node, ignore_priority=DepPriority.MEDIUM_SOFT): # Make sure that portage always has all of it's # RDEPENDs installed first. return False selected_nodes.add(node) for child in mygraph.child_nodes(node, ignore_priority=ignore_priority): if not gather_deps(ignore_priority, mergeable_nodes, selected_nodes, child): return False return True mergeable_nodes = set(nodes) if prefer_asap and asap_nodes: nodes = asap_nodes for ignore_priority in xrange(DepPriority.SOFT, DepPriority.MEDIUM_SOFT + 1): for node in nodes: if nodes is not asap_nodes and \ not accept_root_node and \ not mygraph.parent_nodes(node): continue selected_nodes = set() if gather_deps(ignore_priority, mergeable_nodes, selected_nodes, node): break else: selected_nodes = None if selected_nodes: break # If any nodes have been selected here, it's always # possible that anything up to a MEDIUM_SOFT priority # relationship has been ignored. This state is recorded # in ignore_priority so that relevant nodes will be # added to asap_nodes when appropriate. if selected_nodes: ignore_priority = DepPriority.MEDIUM_SOFT if prefer_asap and asap_nodes and not selected_nodes: # We failed to find any asap nodes to merge, so ignore # them for the next iteration. prefer_asap = False continue if not selected_nodes and not accept_root_node: # Maybe there are only root nodes left, so accept them # for the next iteration. accept_root_node = True continue if selected_nodes and ignore_priority > DepPriority.SOFT: # Try to merge ignored medium deps as soon as possible. for node in selected_nodes: children = set(mygraph.child_nodes(node)) soft = children.difference( mygraph.child_nodes(node, ignore_priority=DepPriority.SOFT)) medium_soft = children.difference( mygraph.child_nodes(node, ignore_priority=DepPriority.MEDIUM_SOFT)) medium_soft.difference_update(soft) for child in medium_soft: if child in selected_nodes: continue if child in asap_nodes: continue asap_nodes.append(child) if selected_nodes and len(selected_nodes) > 1: if not isinstance(selected_nodes, list): selected_nodes = list(selected_nodes) selected_nodes.sort(cmp_circular_bias) if not selected_nodes and not myblocker_uninstalls.is_empty(): # An Uninstall task needs to be executed in order to # avoid conflict if possible. min_parent_deps = None uninst_task = None for task in myblocker_uninstalls.leaf_nodes(): # Do some sanity checks so that system or world packages # don't get uninstalled inappropriately here (only really # necessary when --complete-graph has not been enabled). if task in ignored_uninstall_tasks: continue root_config = self.roots[task.root] inst_pkg = self._pkg_cache[ ("installed", task.root, task.cpv, "nomerge")] if self.digraph.contains(inst_pkg): continue if "/" == task.root: # Never uninstall sys-apps/portage # except through replacement. if "sys-apps/portage" == task.cp: continue # For packages in the system set, don't take # any chances. If the conflict can't be resolved # by a normal replacement operation then abort. skip = False try: for atom in root_config.sets[ "system"].iterAtomsForPackage(task): skip = True break except portage.exception.InvalidDependString: skip = True if skip: continue # Note that the world check isn't always # necessary since self._complete_graph() will # add all packages from the system and world sets to the # graph. This just allows unresolved conflicts to be # detected as early as possible, which makes it possible # to avoid calling self._complete_graph() when it is # unnecessary due to blockers triggering an abortion. if not complete: # For packages in the world set, go ahead an uninstall # when necessary, as long as the atom will be satisfied # in the final state. graph_db = self.mydbapi[task.root] try: for atom in root_config.sets[ "world"].iterAtomsForPackage(task): satisfied = False for cpv in graph_db.match(atom): if cpv == inst_pkg.cpv and \ inst_pkg in graph_db: continue satisfied = True break if not satisfied: skip = True break except portage.exception.InvalidDependString: skip = True if skip: continue # Check the deps of parent nodes to ensure that # the chosen task produces a leaf node. Maybe # this can be optimized some more to make the # best possible choice, but the current algorithm # is simple and should be near optimal for most # common cases. parent_deps = set() for parent in mygraph.parent_nodes(task): parent_deps.update(mygraph.child_nodes(parent, ignore_priority=DepPriority.MEDIUM_SOFT)) parent_deps.remove(task) if min_parent_deps is None or \ len(parent_deps) < min_parent_deps: min_parent_deps = len(parent_deps) uninst_task = task if uninst_task is not None: selected_nodes = [uninst_task] else: # None of the Uninstall tasks are acceptable, so # the corresponding blockers are unresolvable. # We need to drop an Uninstall task here in order # to avoid the circular deps code path, but the # blocker will still be counted as an unresolved # conflict. for node in myblocker_uninstalls.leaf_nodes(): try: mygraph.remove(node) except KeyError: pass else: ignored_uninstall_tasks.add(node) break # After dropping an Uninstall task, reset # the state variables for leaf node selection and # continue trying to select leaf nodes. prefer_asap = True accept_root_node = False continue if not selected_nodes: # No leaf nodes are available, so we have a circular # dependency panic situation. Reduce the noise level to a # minimum via repeated elimination of root nodes since they # have no parents and thus can not be part of a cycle. while True: root_nodes = mygraph.root_nodes( ignore_priority=DepPriority.MEDIUM_SOFT) if not root_nodes: break for node in root_nodes: mygraph.remove(node) # Display the USE flags that are enabled on nodes that are part # of dependency cycles in case that helps the user decide to # disable some of them. display_order = [] tempgraph = mygraph.copy() while not tempgraph.empty(): nodes = tempgraph.leaf_nodes() if not nodes: node = tempgraph.order[0] else: node = nodes[0] display_order.append(list(node)) tempgraph.remove(node) display_order.reverse() self.myopts.pop("--quiet", None) self.myopts.pop("--verbose", None) self.myopts["--tree"] = True self.display(display_order) print "!!! Error: circular dependencies:" print mygraph.debug_print() print print "!!! Note that circular dependencies can often be avoided by temporarily" print "!!! disabling USE flags that trigger optional dependencies." raise self._unknown_internal_error() # At this point, we've succeeded in selecting one or more nodes, so # it's now safe to reset the prefer_asap and accept_root_node flags # to their default states. prefer_asap = True accept_root_node = False mygraph.difference_update(selected_nodes) for node in selected_nodes: # Handle interactions between blockers # and uninstallation tasks. solved_blockers = set() uninst_task = None if isinstance(node, Package) and \ "uninstall" == node.operation: have_uninstall_task = True uninst_task = node else: vardb = self.trees[node.root]["vartree"].dbapi previous_cpv = vardb.match(node.slot_atom) if previous_cpv: # The package will be replaced by this one, so remove # the corresponding Uninstall task if necessary. previous_cpv = previous_cpv[0] uninst_task = \ ("installed", node.root, previous_cpv, "uninstall") try: mygraph.remove(uninst_task) except KeyError: pass if uninst_task is not None and \ uninst_task not in ignored_uninstall_tasks and \ myblocker_uninstalls.contains(uninst_task): blocker_nodes = myblocker_uninstalls.parent_nodes(uninst_task) myblocker_uninstalls.remove(uninst_task) # Discard any blockers that this Uninstall solves. for blocker in blocker_nodes: if not myblocker_uninstalls.child_nodes(blocker): myblocker_uninstalls.remove(blocker) solved_blockers.add(blocker) if node[-1] != "nomerge": retlist.append(node) if isinstance(node, Package) and \ "uninstall" == node.operation: # Include satisfied blockers in the merge list so # that the user can see why the package had to be # uninstalled in advance rather than through # replacement. for blocker in solved_blockers: retlist.append(Blocker(atom=blocker.atom, root=blocker.root, satisfied=True)) unsolvable_blockers = set(self._unsolvable_blockers.leaf_nodes()) for node in myblocker_uninstalls.root_nodes(): unsolvable_blockers.add(node) for blocker in unsolvable_blockers: retlist.append(blocker) # If any Uninstall tasks need to be executed in order # to avoid a conflict, complete the graph with any # dependencies that may have been initially # neglected (to ensure that unsafe Uninstall tasks # are properly identified and blocked from execution). if have_uninstall_task and \ not complete and \ not unsolvable_blockers: self.myparams.add("complete") raise self._serialize_tasks_retry("") return retlist def display(self, mylist, favorites=[], verbosity=None): if verbosity is None: verbosity = ("--quiet" in self.myopts and 1 or \ "--verbose" in self.myopts and 3 or 2) favorites_set = InternalPackageSet(favorites) changelogs=[] p=[] blockers = [] counters = PackageCounters() if verbosity == 1 and "--verbose" not in self.myopts: def create_use_string(*args): return "" else: def create_use_string(name, cur_iuse, iuse_forced, cur_use, old_iuse, old_use, is_new, reinst_flags, all_flags=(verbosity == 3 or "--quiet" in self.myopts), alphabetical=("--alphabetical" in self.myopts)): enabled = [] if alphabetical: disabled = enabled removed = enabled else: disabled = [] removed = [] cur_iuse = set(cur_iuse) enabled_flags = cur_iuse.intersection(cur_use) removed_iuse = set(old_iuse).difference(cur_iuse) any_iuse = cur_iuse.union(old_iuse) any_iuse = list(any_iuse) any_iuse.sort() for flag in any_iuse: flag_str = None isEnabled = False reinst_flag = reinst_flags and flag in reinst_flags if flag in enabled_flags: isEnabled = True if is_new or flag in old_use and \ (all_flags or reinst_flag): flag_str = red(flag) elif flag not in old_iuse: flag_str = yellow(flag) + "%*" elif flag not in old_use: flag_str = green(flag) + "*" elif flag in removed_iuse: if all_flags or reinst_flag: flag_str = yellow("-" + flag) + "%" if flag in old_use: flag_str += "*" flag_str = "(" + flag_str + ")" removed.append(flag_str) continue else: if is_new or flag in old_iuse and \ flag not in old_use and \ (all_flags or reinst_flag): flag_str = blue("-" + flag) elif flag not in old_iuse: flag_str = yellow("-" + flag) if flag not in iuse_forced: flag_str += "%" elif flag in old_use: flag_str = green("-" + flag) + "*" if flag_str: if flag in iuse_forced: flag_str = "(" + flag_str + ")" if isEnabled: enabled.append(flag_str) else: disabled.append(flag_str) if alphabetical: ret = " ".join(enabled) else: ret = " ".join(enabled + disabled + removed) if ret: ret = '%s="%s" ' % (name, ret) return ret repo_display = RepoDisplay(self.roots) show_repos = False tree_nodes = [] display_list = [] mygraph = self.digraph.copy() # If there are any Uninstall instances, add the corresponding # blockers to the digraph (useful for --tree display). for uninstall in self._blocker_uninstalls.leaf_nodes(): uninstall_parents = \ self._blocker_uninstalls.parent_nodes(uninstall) if not uninstall_parents: continue # Remove the corresponding "nomerge" node and substitute # the Uninstall node. inst_pkg = self._pkg_cache[ ("installed", uninstall.root, uninstall.cpv, "nomerge")] try: mygraph.remove(inst_pkg) except KeyError: pass try: inst_pkg_blockers = self._blocker_parents.child_nodes(inst_pkg) except KeyError: inst_pkg_blockers = [] # Break the Package -> Uninstall edges. mygraph.remove(uninstall) # Resolution of a package's blockers # depend on it's own uninstallation. for blocker in inst_pkg_blockers: mygraph.add(uninstall, blocker) # Expand Package -> Uninstall edges into # Package -> Blocker -> Uninstall edges. for blocker in uninstall_parents: mygraph.add(uninstall, blocker) for parent in self._blocker_parents.parent_nodes(blocker): if parent != inst_pkg: mygraph.add(blocker, parent) i = 0 depth = 0 shown_edges = set() for x in mylist: graph_key = x if isinstance(graph_key, list): graph_key = tuple(graph_key) if "--tree" in self.myopts: depth = len(tree_nodes) while depth and graph_key not in \ mygraph.child_nodes(tree_nodes[depth-1]): depth -= 1 if depth: tree_nodes = tree_nodes[:depth] tree_nodes.append(graph_key) display_list.append((x, depth, True)) shown_edges.add((graph_key, tree_nodes[depth-1])) else: traversed_nodes = set() # prevent endless circles traversed_nodes.add(graph_key) def add_parents(current_node, ordered): parent_nodes = None # Do not traverse to parents if this node is an # an argument or a direct member of a set that has # been specified as an argument (system or world). if current_node not in self._set_nodes: parent_nodes = mygraph.parent_nodes(current_node) if parent_nodes: child_nodes = set(mygraph.child_nodes(current_node)) selected_parent = None # First, try to avoid a direct cycle. for node in parent_nodes: if not isinstance(node, (Blocker, Package)): continue if node not in traversed_nodes and \ node not in child_nodes: edge = (current_node, node) if edge in shown_edges: continue selected_parent = node break if not selected_parent: # A direct cycle is unavoidable. for node in parent_nodes: if not isinstance(node, (Blocker, Package)): continue if node not in traversed_nodes: edge = (current_node, node) if edge in shown_edges: continue selected_parent = node break if selected_parent: shown_edges.add((current_node, selected_parent)) traversed_nodes.add(selected_parent) add_parents(selected_parent, False) display_list.append((current_node, len(tree_nodes), ordered)) tree_nodes.append(current_node) tree_nodes = [] add_parents(graph_key, True) else: display_list.append((x, depth, True)) mylist = display_list last_merge_depth = 0 for i in xrange(len(mylist)-1,-1,-1): graph_key, depth, ordered = mylist[i] if not ordered and depth == 0 and i > 0 \ and graph_key == mylist[i-1][0] and \ mylist[i-1][1] == 0: # An ordered node got a consecutive duplicate when the tree was # being filled in. del mylist[i] continue if ordered and graph_key[-1] != "nomerge": last_merge_depth = depth continue if depth >= last_merge_depth or \ i < len(mylist) - 1 and \ depth >= mylist[i+1][1]: del mylist[i] from portage import flatten from portage.dep import use_reduce, paren_reduce # files to fetch list - avoids counting a same file twice # in size display (verbose mode) myfetchlist=[] for mylist_index in xrange(len(mylist)): x, depth, ordered = mylist[mylist_index] pkg_type = x[0] myroot = x[1] pkg_key = x[2] portdb = self.trees[myroot]["porttree"].dbapi bindb = self.trees[myroot]["bintree"].dbapi vardb = self.trees[myroot]["vartree"].dbapi vartree = self.trees[myroot]["vartree"] pkgsettings = self.pkgsettings[myroot] fetch=" " indent = " " * depth if x[0]=="blocks": addl=""+red("B")+" "+fetch+" " if ordered: counters.blocks += 1 resolved = portage.key_expand( pkg_key, mydb=vardb, settings=pkgsettings) if "--columns" in self.myopts and "--quiet" in self.myopts: addl = addl + " " + red(resolved) else: addl = "[blocks " + addl + "] " + indent + red(resolved) block_parents = self._blocker_parents.parent_nodes(tuple(x)) block_parents = set([pnode[2] for pnode in block_parents]) block_parents = ", ".join(block_parents) if resolved!=x[2]: addl += bad(" (\"%s\" is blocking %s)") % \ (pkg_key, block_parents) else: addl += bad(" (is blocking %s)") % block_parents if isinstance(x, Blocker) and x.satisfied: p.append(addl) else: blockers.append(addl) else: pkg_status = x[3] pkg_merge = ordered and pkg_status == "merge" if not pkg_merge and pkg_status == "merge": pkg_status = "nomerge" built = pkg_type != "ebuild" installed = pkg_type == "installed" try: pkg = self._pkg_cache[tuple(x)] except KeyError: if pkg_status != "uninstall": raise # A package scheduled for uninstall apparently # isn't installed anymore. Since it's already # been uninstalled, move on to the next task. # This case should only be reachable in --resume # mode, since otherwise the package would have # been cached. continue metadata = pkg.metadata ebuild_path = None repo_name = metadata["repository"] if pkg_type == "ebuild": ebuild_path = portdb.findname(pkg_key) if not ebuild_path: # shouldn't happen raise portage.exception.PackageNotFound(pkg_key) repo_path_real = os.path.dirname(os.path.dirname( os.path.dirname(ebuild_path))) else: repo_path_real = portdb.getRepositoryPath(repo_name) pkg_use = metadata["USE"].split() try: restrict = flatten(use_reduce(paren_reduce( pkg.metadata["RESTRICT"]), uselist=pkg_use)) except portage.exception.InvalidDependString, e: if not pkg.installed: show_invalid_depstring_notice(x, pkg.metadata["RESTRICT"], str(e)) del e return 1 restrict = [] if "ebuild" == pkg_type and x[3] != "nomerge" and \ "fetch" in restrict: fetch = red("F") if ordered: counters.restrict_fetch += 1 if portdb.fetch_check(pkg_key, pkg_use): fetch = green("f") if ordered: counters.restrict_fetch_satisfied += 1 #we need to use "--emptrytree" testing here rather than "empty" param testing because "empty" #param is used for -u, where you still *do* want to see when something is being upgraded. myoldbest = [] myinslotlist = None installed_versions = vardb.match(portage.cpv_getkey(pkg_key)) if vardb.cpv_exists(pkg_key): addl=" "+yellow("R")+fetch+" " if pkg_merge: counters.reinst += 1 elif pkg_status == "uninstall": counters.uninst += 1 # filter out old-style virtual matches elif installed_versions and \ portage.cpv_getkey(installed_versions[0]) == \ portage.cpv_getkey(pkg_key): myinslotlist = vardb.match(pkg.slot_atom) # If this is the first install of a new-style virtual, we # need to filter out old-style virtual matches. if myinslotlist and \ portage.cpv_getkey(myinslotlist[0]) != \ portage.cpv_getkey(pkg_key): myinslotlist = None if myinslotlist: myoldbest = myinslotlist[:] addl = " " + fetch if not portage.dep.cpvequal(pkg_key, portage.best([pkg_key] + myoldbest)): # Downgrade in slot addl += turquoise("U")+blue("D") if ordered: counters.downgrades += 1 else: # Update in slot addl += turquoise("U") + " " if ordered: counters.upgrades += 1 else: # New slot, mark it new. addl = " " + green("NS") + fetch + " " myoldbest = vardb.match(portage.cpv_getkey(pkg_key)) if ordered: counters.newslot += 1 if "--changelog" in self.myopts: inst_matches = vardb.match(pkg.slot_atom) if inst_matches: changelogs.extend(self.calc_changelog( portdb.findname(pkg_key), inst_matches[0], pkg_key)) else: addl = " " + green("N") + " " + fetch + " " if ordered: counters.new += 1 verboseadd = "" if True: # USE flag display cur_iuse = list(filter_iuse_defaults( pkg.metadata["IUSE"].split())) forced_flags = set() pkgsettings.setcpv(pkg.cpv, mydb=pkg.metadata) # for package.use.{mask,force} forced_flags.update(pkgsettings.useforce) forced_flags.update(pkgsettings.usemask) cur_iuse = portage.unique_array(cur_iuse) cur_iuse.sort() cur_use = pkg_use cur_use = [flag for flag in cur_use if flag in cur_iuse] if myoldbest and myinslotlist: previous_cpv = myoldbest[0] else: previous_cpv = pkg.cpv if vardb.cpv_exists(previous_cpv): old_iuse, old_use = vardb.aux_get( previous_cpv, ["IUSE", "USE"]) old_iuse = list(set( filter_iuse_defaults(old_iuse.split()))) old_iuse.sort() old_use = old_use.split() is_new = False else: old_iuse = [] old_use = [] is_new = True old_use = [flag for flag in old_use if flag in old_iuse] use_expand = pkgsettings["USE_EXPAND"].lower().split() use_expand.sort() use_expand.reverse() use_expand_hidden = \ pkgsettings["USE_EXPAND_HIDDEN"].lower().split() def map_to_use_expand(myvals, forcedFlags=False, removeHidden=True): ret = {} forced = {} for exp in use_expand: ret[exp] = [] forced[exp] = set() for val in myvals[:]: if val.startswith(exp.lower()+"_"): if val in forced_flags: forced[exp].add(val[len(exp)+1:]) ret[exp].append(val[len(exp)+1:]) myvals.remove(val) ret["USE"] = myvals forced["USE"] = [val for val in myvals \ if val in forced_flags] if removeHidden: for exp in use_expand_hidden: ret.pop(exp, None) if forcedFlags: return ret, forced return ret # Prevent USE_EXPAND_HIDDEN flags from being hidden if they # are the only thing that triggered reinstallation. reinst_flags_map = {} reinstall_for_flags = self._reinstall_nodes.get(pkg) reinst_expand_map = None if reinstall_for_flags: reinst_flags_map = map_to_use_expand( list(reinstall_for_flags), removeHidden=False) for k in list(reinst_flags_map): if not reinst_flags_map[k]: del reinst_flags_map[k] if not reinst_flags_map.get("USE"): reinst_expand_map = reinst_flags_map.copy() reinst_expand_map.pop("USE", None) if reinst_expand_map and \ not set(reinst_expand_map).difference( use_expand_hidden): use_expand_hidden = \ set(use_expand_hidden).difference( reinst_expand_map) cur_iuse_map, iuse_forced = \ map_to_use_expand(cur_iuse, forcedFlags=True) cur_use_map = map_to_use_expand(cur_use) old_iuse_map = map_to_use_expand(old_iuse) old_use_map = map_to_use_expand(old_use) use_expand.sort() use_expand.insert(0, "USE") for key in use_expand: if key in use_expand_hidden: continue verboseadd += create_use_string(key.upper(), cur_iuse_map[key], iuse_forced[key], cur_use_map[key], old_iuse_map[key], old_use_map[key], is_new, reinst_flags_map.get(key)) if verbosity == 3: # size verbose mysize=0 if pkg_type == "ebuild" and pkg_merge: try: myfilesdict = portdb.getfetchsizes(pkg_key, useflags=pkg_use, debug=self.edebug) except portage.exception.InvalidDependString, e: src_uri = portdb.aux_get(pkg_key, ["SRC_URI"])[0] show_invalid_depstring_notice(x, src_uri, str(e)) del e return 1 if myfilesdict is None: myfilesdict="[empty/missing/bad digest]" else: for myfetchfile in myfilesdict: if myfetchfile not in myfetchlist: mysize+=myfilesdict[myfetchfile] myfetchlist.append(myfetchfile) counters.totalsize += mysize verboseadd+=format_size(mysize)+" " # overlay verbose # assign index for a previous version in the same slot has_previous = False repo_name_prev = None slot_atom = "%s:%s" % (portage.dep_getkey(pkg_key), metadata["SLOT"]) slot_matches = vardb.match(slot_atom) if slot_matches: has_previous = True repo_name_prev = vardb.aux_get(slot_matches[0], ["repository"])[0] # now use the data to generate output repoadd = None if pkg.installed or not has_previous: repoadd = repo_display.repoStr(repo_path_real) else: repo_path_prev = None if repo_name_prev: repo_path_prev = portdb.getRepositoryPath( repo_name_prev) if repo_path_prev == repo_path_real: repoadd = repo_display.repoStr(repo_path_real) else: repoadd = "%s=>%s" % ( repo_display.repoStr(repo_path_prev), repo_display.repoStr(repo_path_real)) if repoadd and repoadd != "0": show_repos = True verboseadd += teal("[%s]" % repoadd) xs = [portage.cpv_getkey(pkg_key)] + \ list(portage.catpkgsplit(pkg_key)[2:]) if xs[2] == "r0": xs[2] = "" else: xs[2] = "-" + xs[2] mywidth = 130 if "COLUMNWIDTH" in self.settings: try: mywidth = int(self.settings["COLUMNWIDTH"]) except ValueError, e: portage.writemsg("!!! %s\n" % str(e), noiselevel=-1) portage.writemsg( "!!! Unable to parse COLUMNWIDTH='%s'\n" % \ self.settings["COLUMNWIDTH"], noiselevel=-1) del e oldlp = mywidth - 30 newlp = oldlp - 30 # Convert myoldbest from a list to a string. if not myoldbest: myoldbest = "" else: for pos, key in enumerate(myoldbest): key = portage.catpkgsplit(key)[2] + \ "-" + portage.catpkgsplit(key)[3] if key[-3:] == "-r0": key = key[:-3] myoldbest[pos] = key myoldbest = blue("["+", ".join(myoldbest)+"]") pkg_cp = xs[0] root_config = self.roots[myroot] system_set = root_config.sets["system"] world_set = root_config.sets["world"] pkg_system = False pkg_world = False try: pkg_system = system_set.findAtomForPackage(pkg_key, metadata) pkg_world = world_set.findAtomForPackage(pkg_key, metadata) if not pkg_world and myroot == self.target_root and \ favorites_set.findAtomForPackage(pkg_key, metadata): # Maybe it will be added to world now. if create_world_atom(pkg_key, metadata, favorites_set, root_config): pkg_world = True except portage.exception.InvalidDependString: # This is reported elsewhere if relevant. pass def pkgprint(pkg_str): if pkg_merge: if pkg_system: return colorize("PKG_MERGE_SYSTEM", pkg_str) elif pkg_world: return colorize("PKG_MERGE_WORLD", pkg_str) else: return colorize("PKG_MERGE", pkg_str) elif pkg_status == "uninstall": return colorize("PKG_UNINSTALL", pkg_str) else: if pkg_system: return colorize("PKG_NOMERGE_SYSTEM", pkg_str) elif pkg_world: return colorize("PKG_NOMERGE_WORLD", pkg_str) else: return colorize("PKG_NOMERGE", pkg_str) if x[1]!="/": if myoldbest: myoldbest +=" " if "--columns" in self.myopts: if "--quiet" in self.myopts: myprint=addl+" "+indent+pkgprint(pkg_cp) myprint=myprint+darkblue(" "+xs[1]+xs[2])+" " myprint=myprint+myoldbest myprint=myprint+darkgreen("to "+x[1]) else: if not pkg_merge: myprint = "[%s] %s%s" % \ (pkgprint(pkg_status.ljust(13)), indent, pkgprint(pkg.cp)) else: myprint = "[%s %s] %s%s" % \ (pkgprint(pkg.type_name), addl, indent, pkgprint(pkg.cp)) if (newlp-nc_len(myprint)) > 0: myprint=myprint+(" "*(newlp-nc_len(myprint))) myprint=myprint+"["+darkblue(xs[1]+xs[2])+"] " if (oldlp-nc_len(myprint)) > 0: myprint=myprint+" "*(oldlp-nc_len(myprint)) myprint=myprint+myoldbest myprint=myprint+darkgreen("to "+x[1])+" "+verboseadd else: if not pkg_merge: myprint = "[%s] " % pkgprint(pkg_status.ljust(13)) else: myprint = "[" + pkg_type + " " + addl + "] " myprint += indent + pkgprint(pkg_key) + " " + \ myoldbest + darkgreen("to " + myroot) + " " + \ verboseadd else: if "--columns" in self.myopts: if "--quiet" in self.myopts: myprint=addl+" "+indent+pkgprint(pkg_cp) myprint=myprint+" "+green(xs[1]+xs[2])+" " myprint=myprint+myoldbest else: if not pkg_merge: myprint = "[%s] %s%s" % \ (pkgprint(pkg_status.ljust(13)), indent, pkgprint(pkg.cp)) else: myprint = "[%s %s] %s%s" % \ (pkgprint(pkg.type_name), addl, indent, pkgprint(pkg.cp)) if (newlp-nc_len(myprint)) > 0: myprint=myprint+(" "*(newlp-nc_len(myprint))) myprint=myprint+green(" ["+xs[1]+xs[2]+"] ") if (oldlp-nc_len(myprint)) > 0: myprint=myprint+(" "*(oldlp-nc_len(myprint))) myprint=myprint+myoldbest+" "+verboseadd else: if not pkg_merge: myprint = "[%s] %s%s %s %s" % \ (pkgprint(pkg_status.ljust(13)), indent, pkgprint(pkg.cpv), myoldbest, verboseadd) else: myprint="["+pkgprint(pkg_type)+" "+addl+"] "+indent+pkgprint(pkg_key)+" "+myoldbest+" "+verboseadd p.append(myprint) mysplit = [portage.cpv_getkey(pkg_key)] + \ list(portage.catpkgsplit(pkg_key)[2:]) if "--tree" not in self.myopts and mysplit and \ len(mysplit) == 3 and mysplit[0] == "sys-apps/portage" and \ x[1] == "/": if mysplit[2] == "r0": myversion = mysplit[1] else: myversion = "%s-%s" % (mysplit[1], mysplit[2]) if myversion != portage.VERSION and "--quiet" not in self.myopts: if mylist_index < len(mylist) - 1: p.append(colorize("WARN", "*** Portage will stop merging at this point and reload itself,")) p.append(colorize("WARN", " then resume the merge.")) print del mysplit for x in p: print x for x in blockers: print x if verbosity == 3: print print counters if show_repos: sys.stdout.write(str(repo_display)) if "--changelog" in self.myopts: print for revision,text in changelogs: print bold('*'+revision) sys.stdout.write(text) sys.stdout.flush() self.display_problems() return os.EX_OK def display_problems(self): """ Display problems with the dependency graph such as slot collisions. This is called internally by display() to show the problems _after_ the merge list where it is most likely to be seen, but if display() is not going to be called then this method should be called explicitly to ensure that the user is notified of problems with the graph. """ task_list = self._serialized_tasks_cache # Any blockers must be appended to the tail of the list, # so we only need to check the last item. have_blocker_conflict = bool(task_list and \ (isinstance(task_list[-1], Blocker) and \ not task_list[-1].satisfied)) # The user is only notified of a slot conflict if # there are no unresolvable blocker conflicts. if not have_blocker_conflict: self._show_slot_collision_notice() # TODO: Add generic support for "set problem" handlers so that # the below warnings aren't special cases for world only. if self._missing_args: world_problems = False if "world" in self._sets: for arg, atom in self._missing_args: if arg.name == "world": world_problems = True break if world_problems: sys.stderr.write("\n!!! Problems have been " + \ "detected with your world file\n") sys.stderr.write("!!! Please run " + \ green("emaint --check world")+"\n\n") if self._missing_args: sys.stderr.write("\n" + colorize("BAD", "!!!") + \ " Ebuilds for the following packages are either all\n") sys.stderr.write(colorize("BAD", "!!!") + \ " masked or don't exist:\n") sys.stderr.write(" ".join(atom for arg, atom in \ self._missing_args) + "\n") if self._pprovided_args: arg_refs = {} for arg, atom in self._pprovided_args: if isinstance(arg, SetArg): parent = arg.name arg_atom = (atom, atom) else: parent = "args" arg_atom = (arg.arg, atom) refs = arg_refs.setdefault(arg_atom, []) if parent not in refs: refs.append(parent) msg = [] msg.append(bad("\nWARNING: ")) if len(self._pprovided_args) > 1: msg.append("Requested packages will not be " + \ "merged because they are listed in\n") else: msg.append("A requested package will not be " + \ "merged because it is listed in\n") msg.append("package.provided:\n\n") problems_sets = set() for (arg, atom), refs in arg_refs.iteritems(): ref_string = "" if refs: problems_sets.update(refs) refs.sort() ref_string = ", ".join(["'%s'" % name for name in refs]) ref_string = " pulled in by " + ref_string msg.append(" %s%s\n" % (colorize("INFORM", arg), ref_string)) msg.append("\n") if "world" in problems_sets: msg.append("This problem can be solved in one of the following ways:\n\n") msg.append(" A) Use emaint to clean offending packages from world (if not installed).\n") msg.append(" B) Uninstall offending packages (cleans them from world).\n") msg.append(" C) Remove offending entries from package.provided.\n\n") msg.append("The best course of action depends on the reason that an offending\n") msg.append("package.provided entry exists.\n\n") sys.stderr.write("".join(msg)) masked_packages = [] for pkg, pkgsettings in self._masked_installed: root_config = self.roots[pkg.root] mreasons = get_masking_status(pkg, pkgsettings, root_config) masked_packages.append((root_config, pkgsettings, pkg.cpv, pkg.metadata, mreasons)) if masked_packages: sys.stderr.write("\n" + colorize("BAD", "!!!") + \ " The following installed packages are masked:\n") show_masked_packages(masked_packages) show_mask_docs() print for pargs, kwargs in self._unsatisfied_deps_for_display: self._show_unsatisfied_dep(*pargs, **kwargs) def calc_changelog(self,ebuildpath,current,next): if ebuildpath == None or not os.path.exists(ebuildpath): return [] current = '-'.join(portage.catpkgsplit(current)[1:]) if current.endswith('-r0'): current = current[:-3] next = '-'.join(portage.catpkgsplit(next)[1:]) if next.endswith('-r0'): next = next[:-3] changelogpath = os.path.join(os.path.split(ebuildpath)[0],'ChangeLog') try: changelog = open(changelogpath).read() except SystemExit, e: raise # Needed else can't exit except: return [] divisions = self.find_changelog_tags(changelog) #print 'XX from',current,'to',next #for div,text in divisions: print 'XX',div # skip entries for all revisions above the one we are about to emerge for i in range(len(divisions)): if divisions[i][0]==next: divisions = divisions[i:] break # find out how many entries we are going to display for i in range(len(divisions)): if divisions[i][0]==current: divisions = divisions[:i] break else: # couldnt find the current revision in the list. display nothing return [] return divisions def find_changelog_tags(self,changelog): divs = [] release = None while 1: match = re.search(r'^\*\ ?([-a-zA-Z0-9_.+]*)(?:\ .*)?\n',changelog,re.M) if match is None: if release is not None: divs.append((release,changelog)) return divs if release is not None: divs.append((release,changelog[:match.start()])) changelog = changelog[match.end():] release = match.group(1) if release.endswith('.ebuild'): release = release[:-7] if release.endswith('-r0'): release = release[:-3] def saveNomergeFavorites(self): """Find atoms in favorites that are not in the mergelist and add them to the world file if necessary.""" for x in ("--buildpkgonly", "--fetchonly", "--fetch-all-uri", "--oneshot", "--onlydeps", "--pretend"): if x in self.myopts: return root_config = self.roots[self.target_root] world_set = root_config.sets["world"] world_set.lock() world_set.load() # maybe it's changed on disk args_set = self._sets["args"] portdb = self.trees[self.target_root]["porttree"].dbapi added_favorites = set() for x in self._set_nodes: pkg_type, root, pkg_key, pkg_status = x if pkg_status != "nomerge": continue metadata = dict(izip(self._mydbapi_keys, self.mydbapi[root].aux_get(pkg_key, self._mydbapi_keys))) try: myfavkey = create_world_atom(pkg_key, metadata, args_set, root_config) if myfavkey: if myfavkey in added_favorites: continue added_favorites.add(myfavkey) except portage.exception.InvalidDependString, e: writemsg("\n\n!!! '%s' has invalid PROVIDE: %s\n" % \ (pkg_key, str(e)), noiselevel=-1) writemsg("!!! see '%s'\n\n" % os.path.join( root, portage.VDB_PATH, pkg_key, "PROVIDE"), noiselevel=-1) del e all_added = [] for k in self._sets: if k in ("args", "world") or not root_config.sets[k].world_candidate: continue s = SETPREFIX + k if s in world_set: continue all_added.append(SETPREFIX + k) all_added.extend(added_favorites) all_added.sort() for a in all_added: print ">>> Recording %s in \"world\" favorites file..." % \ colorize("INFORM", a) if all_added: world_set.update(all_added) world_set.unlock() def loadResumeCommand(self, resume_data): """ Add a resume command to the graph and validate it in the process. This will raise a PackageNotFound exception if a package is not available. """ self._sets["args"].update(resume_data.get("favorites", [])) mergelist = resume_data.get("mergelist", []) fakedb = self.mydbapi trees = self.trees for x in mergelist: if len(x) != 4: continue pkg_type, myroot, pkg_key, action = x if pkg_type not in self.pkg_tree_map: continue if action not in ("merge", "uninstall"): continue mydb = trees[myroot][self.pkg_tree_map[pkg_type]].dbapi try: metadata = dict(izip(self._mydbapi_keys, mydb.aux_get(pkg_key, self._mydbapi_keys))) except KeyError: # It does no exist or it is corrupt. if action == "uninstall": continue raise portage.exception.PackageNotFound(pkg_key) if pkg_type == "ebuild": pkgsettings = self.pkgsettings[myroot] pkgsettings.setcpv(pkg_key, mydb=metadata) metadata["USE"] = pkgsettings["PORTAGE_USE"] installed = action == "uninstall" built = pkg_type != "ebuild" pkg = Package(built=built, cpv=pkg_key, installed=installed, metadata=metadata, operation=action, root=myroot, type_name=pkg_type) self._pkg_cache[pkg] = pkg fakedb[myroot].cpv_inject(pkg) self.spinner.update() class _internal_exception(portage.exception.PortageException): def __init__(self, value=""): portage.exception.PortageException.__init__(self, value) class _unknown_internal_error(_internal_exception): """ Used by the depgraph internally to terminate graph creation. The specific reason for the failure should have been dumped to stderr, unfortunately, the exact reason for the failure may not be known. """ class _serialize_tasks_retry(_internal_exception): """ This is raised by the _serialize_tasks() method when it needs to be called again for some reason. The only case that it's currently used for is when neglected dependencies need to be added to the graph in order to avoid making a potentially unsafe decision. """ class _dep_check_composite_db(portage.dbapi): """ A dbapi-like interface that is optimized for use in dep_check() calls. This is built on top of the existing depgraph package selection logic. Some packages that have been added to the graph may be masked from this view in order to influence the atom preference selection that occurs via dep_check(). """ def __init__(self, depgraph, root): portage.dbapi.__init__(self) self._depgraph = depgraph self._root = root self._match_cache = {} self._cpv_pkg_map = {} def match(self, atom): ret = self._match_cache.get(atom) if ret is not None: return ret[:] orig_atom = atom if "/" not in atom: atom = self._dep_expand(atom) pkg, existing = self._depgraph._select_package(self._root, atom) if not pkg: ret = [] else: # Return the highest available from select_package() as well as # any matching slots in the graph db. slots = set() slots.add(pkg.metadata["SLOT"]) atom_cp = portage.dep_getkey(atom) if pkg.cp.startswith("virtual/"): # For new-style virtual lookahead that occurs inside # dep_check(), examine all slots. This is needed # so that newer slots will not unnecessarily be pulled in # when a satisfying lower slot is already installed. For # example, if virtual/jdk-1.4 is satisfied via kaffe then # there's no need to pull in a newer slot to satisfy a # virtual/jdk dependency. for db, pkg_type, built, installed, db_keys in \ self._depgraph._filtered_trees[self._root]["dbs"]: for cpv in db.match(atom): if portage.cpv_getkey(cpv) != pkg.cp: continue slots.add(db.aux_get(cpv, ["SLOT"])[0]) ret = [] if self._visible(pkg): self._cpv_pkg_map[pkg.cpv] = pkg ret.append(pkg.cpv) slots.remove(pkg.metadata["SLOT"]) while slots: slot_atom = "%s:%s" % (atom_cp, slots.pop()) pkg, existing = self._depgraph._select_package( self._root, slot_atom) if not pkg: continue if not self._visible(pkg): continue self._cpv_pkg_map[pkg.cpv] = pkg ret.append(pkg.cpv) if ret: self._cpv_sort_ascending(ret) self._match_cache[orig_atom] = ret return ret[:] def _visible(self, pkg): if pkg.installed and "selective" not in self._depgraph.myparams: try: arg = self._depgraph._iter_atoms_for_pkg(pkg).next() except (StopIteration, portage.exception.InvalidDependString): arg = None if arg: return False if pkg.installed: try: if not visible( self._depgraph.pkgsettings[pkg.root], pkg): return False except portage.exception.InvalidDependString: pass return True def _dep_expand(self, atom): """ This is only needed for old installed packages that may contain atoms that are not fully qualified with a specific category. Emulate the cpv_expand() function that's used by dbapi.match() in cases like this. If there are multiple matches, it's often due to a new-style virtual that has been added, so try to filter those out to avoid raising a ValueError. """ root_config = self._depgraph.roots[self._root] orig_atom = atom expanded_atoms = self._depgraph._dep_expand(root_config, atom) if len(expanded_atoms) > 1: non_virtual_atoms = [] for x in expanded_atoms: if not portage.dep_getkey(x).startswith("virtual/"): non_virtual_atoms.append(x) if len(non_virtual_atoms) == 1: expanded_atoms = non_virtual_atoms if len(expanded_atoms) > 1: # compatible with portage.cpv_expand() raise ValueError([portage.dep_getkey(x) \ for x in expanded_atoms]) if expanded_atoms: atom = expanded_atoms[0] else: null_atom = insert_category_into_atom(atom, "null") null_cp = portage.dep_getkey(null_atom) cat, atom_pn = portage.catsplit(null_cp) virts_p = root_config.settings.get_virts_p().get(atom_pn) if virts_p: # Allow the resolver to choose which virtual. atom = insert_category_into_atom(atom, "virtual") else: atom = insert_category_into_atom(atom, "null") return atom def aux_get(self, cpv, wants): metadata = self._cpv_pkg_map[cpv].metadata return [metadata.get(x, "") for x in wants] class _package_cache(dict): def __init__(self, depgraph): dict.__init__(self) self._depgraph = depgraph def __setitem__(self, k, v): dict.__setitem__(self, k, v) root_config = self._depgraph.roots[v.root] if visible(root_config.settings, v): root_config.visible_pkgs.cpv_inject(v) class RepoDisplay(object): def __init__(self, roots): self._shown_repos = {} self._unknown_repo = False repo_paths = set() for root_config in roots.itervalues(): portdir = root_config.settings.get("PORTDIR") if portdir: repo_paths.add(portdir) overlays = root_config.settings.get("PORTDIR_OVERLAY") if overlays: repo_paths.update(overlays.split()) repo_paths = list(repo_paths) self._repo_paths = repo_paths self._repo_paths_real = [ os.path.realpath(repo_path) \ for repo_path in repo_paths ] # pre-allocate index for PORTDIR so that it always has index 0. for root_config in roots.itervalues(): portdb = root_config.trees["porttree"].dbapi portdir = portdb.porttree_root if portdir: self.repoStr(portdir) def repoStr(self, repo_path_real): real_index = -1 if repo_path_real: real_index = self._repo_paths_real.index(repo_path_real) if real_index == -1: s = "?" self._unknown_repo = True else: shown_repos = self._shown_repos repo_paths = self._repo_paths repo_path = repo_paths[real_index] index = shown_repos.get(repo_path) if index is None: index = len(shown_repos) shown_repos[repo_path] = index s = str(index) return s def __str__(self): output = [] shown_repos = self._shown_repos unknown_repo = self._unknown_repo if shown_repos or self._unknown_repo: output.append("Portage tree and overlays:\n") show_repo_paths = list(shown_repos) for repo_path, repo_index in shown_repos.iteritems(): show_repo_paths[repo_index] = repo_path if show_repo_paths: for index, repo_path in enumerate(show_repo_paths): output.append(" "+teal("["+str(index)+"]")+" %s\n" % repo_path) if unknown_repo: output.append(" "+teal("[?]") + \ " indicates that the source repository could not be determined\n") return "".join(output) class PackageCounters(object): def __init__(self): self.upgrades = 0 self.downgrades = 0 self.new = 0 self.newslot = 0 self.reinst = 0 self.uninst = 0 self.blocks = 0 self.totalsize = 0 self.restrict_fetch = 0 self.restrict_fetch_satisfied = 0 def __str__(self): total_installs = self.upgrades + self.downgrades + self.newslot + self.new + self.reinst myoutput = [] details = [] myoutput.append("Total: %s package" % total_installs) if total_installs != 1: myoutput.append("s") if total_installs != 0: myoutput.append(" (") if self.upgrades > 0: details.append("%s upgrade" % self.upgrades) if self.upgrades > 1: details[-1] += "s" if self.downgrades > 0: details.append("%s downgrade" % self.downgrades) if self.downgrades > 1: details[-1] += "s" if self.new > 0: details.append("%s new" % self.new) if self.newslot > 0: details.append("%s in new slot" % self.newslot) if self.newslot > 1: details[-1] += "s" if self.reinst > 0: details.append("%s reinstall" % self.reinst) if self.reinst > 1: details[-1] += "s" if self.uninst > 0: details.append("%s uninstall" % self.uninst) if self.uninst > 1: details[-1] += "s" if self.blocks > 0: details.append("%s block" % self.blocks) if self.blocks > 1: details[-1] += "s" myoutput.append(", ".join(details)) if total_installs != 0: myoutput.append(")") myoutput.append(", Size of downloads: %s" % format_size(self.totalsize)) if self.restrict_fetch: myoutput.append("\nFetch Restriction: %s package" % \ self.restrict_fetch) if self.restrict_fetch > 1: myoutput.append("s") if self.restrict_fetch_satisfied < self.restrict_fetch: myoutput.append(bad(" (%s unsatisfied)") % \ (self.restrict_fetch - self.restrict_fetch_satisfied)) return "".join(myoutput) class MergeTask(object): def __init__(self, settings, trees, myopts): self.settings = settings self.target_root = settings["ROOT"] self.trees = trees self.myopts = myopts self.edebug = 0 if settings.get("PORTAGE_DEBUG", "") == "1": self.edebug = 1 self.pkgsettings = {} for root in trees: self.pkgsettings[root] = portage.config( clone=trees[root]["vartree"].settings) self.curval = 0 self._spawned_pids = [] self._uninstall_queue = [] def merge(self, mylist, favorites, mtimedb): try: return self._merge(mylist, favorites, mtimedb) finally: if self._spawned_pids: from portage import process process.spawned_pids.extend(self._spawned_pids) self._spawned_pids = [] def _poll_child_processes(self): """ After each merge, collect status from child processes in order to clean up zombies (such as the parallel-fetch process). """ spawned_pids = self._spawned_pids if not spawned_pids: return for pid in list(spawned_pids): try: if os.waitpid(pid, os.WNOHANG) == (0, 0): continue except OSError: # This pid has been cleaned up elsewhere, # so remove it from our list. pass spawned_pids.remove(pid) def _dequeue_uninstall_tasks(self, mtimedb): if not self._uninstall_queue: return for uninst_task in self._uninstall_queue: root_config = self.trees[uninst_task.root]["root_config"] unmerge(root_config, self.myopts, "unmerge", [uninst_task.cpv], mtimedb["ldpath"], clean_world=0) del mtimedb["resume"]["mergelist"][0] mtimedb.commit() del self._uninstall_queue[:] def _merge(self, mylist, favorites, mtimedb): from portage.elog import elog_process from portage.elog.filtering import filter_mergephases buildpkgonly = "--buildpkgonly" in self.myopts failed_fetches = [] fetchonly = "--fetchonly" in self.myopts or \ "--fetch-all-uri" in self.myopts pretend = "--pretend" in self.myopts mymergelist=[] ldpath_mtimes = mtimedb["ldpath"] xterm_titles = "notitles" not in self.settings.features if "--resume" in self.myopts: # We're resuming. print colorize("GOOD", "*** Resuming merge...") emergelog(xterm_titles, " *** Resuming merge...") mylist = mtimedb["resume"]["mergelist"][:] if "--skipfirst" in self.myopts and mylist: del mtimedb["resume"]["mergelist"][0] del mylist[0] mtimedb.commit() mymergelist = mylist # Verify all the manifests now so that the user is notified of failure # as soon as possible. if "--fetchonly" not in self.myopts and \ "--fetch-all-uri" not in self.myopts and \ "strict" in self.settings.features: shown_verifying_msg = False quiet_settings = {} for myroot, pkgsettings in self.pkgsettings.iteritems(): quiet_config = portage.config(clone=pkgsettings) quiet_config["PORTAGE_QUIET"] = "1" quiet_config.backup_changes("PORTAGE_QUIET") quiet_settings[myroot] = quiet_config del quiet_config for x in mylist: if x[0] != "ebuild" or x[-1] == "nomerge": continue if not shown_verifying_msg: shown_verifying_msg = True print ">>> Verifying ebuild Manifests..." mytype, myroot, mycpv, mystatus = x portdb = self.trees[myroot]["porttree"].dbapi quiet_config = quiet_settings[myroot] quiet_config["O"] = os.path.dirname(portdb.findname(mycpv)) if not portage.digestcheck([], quiet_config, strict=True): return 1 del x, mytype, myroot, mycpv, mystatus, quiet_config del shown_verifying_msg, quiet_settings root_config = self.trees[self.target_root]["root_config"] system_set = root_config.sets["system"] args_set = InternalPackageSet(favorites) world_set = root_config.sets["world"] if "--resume" not in self.myopts: mymergelist = mylist mtimedb["resume"]["mergelist"] = [list(x) for x in mymergelist \ if isinstance(x, Package)] mtimedb.commit() myfeat = self.settings.features[:] bad_resume_opts = set(["--ask", "--tree", "--changelog", "--skipfirst", "--resume"]) if "parallel-fetch" in myfeat and \ not ("--pretend" in self.myopts or \ "--fetch-all-uri" in self.myopts or \ "--fetchonly" in self.myopts): if "distlocks" not in myfeat: print red("!!!") print red("!!!")+" parallel-fetching requires the distlocks feature enabled" print red("!!!")+" you have it disabled, thus parallel-fetching is being disabled" print red("!!!") elif len(mymergelist) > 1: fetch_log = "/var/log/emerge-fetch.log" logfile = open(fetch_log, "w") fd_pipes = {1:logfile.fileno(), 2:logfile.fileno()} portage.util.apply_secpass_permissions(fetch_log, uid=portage.portage_uid, gid=portage.portage_gid, mode=0660) fetch_env = os.environ.copy() fetch_env["FEATURES"] = fetch_env.get("FEATURES", "") + " -cvs" fetch_env["PORTAGE_NICENESS"] = "0" fetch_env["PORTAGE_PARALLEL_FETCHONLY"] = "1" fetch_args = [sys.argv[0], "--resume", "--fetchonly"] resume_opts = self.myopts.copy() # For automatic resume, we need to prevent # any of bad_resume_opts from leaking in # via EMERGE_DEFAULT_OPTS. resume_opts["--ignore-default-opts"] = True for myopt, myarg in resume_opts.iteritems(): if myopt not in bad_resume_opts: if myarg is True: fetch_args.append(myopt) else: fetch_args.append(myopt +"="+ myarg) self._spawned_pids.extend( portage.process.spawn( fetch_args, env=fetch_env, fd_pipes=fd_pipes, returnpid=True)) logfile.close() # belongs to the spawned process del fetch_log, logfile, fd_pipes, fetch_env, fetch_args, \ resume_opts print ">>> starting parallel fetching pid %d" % \ self._spawned_pids[-1] metadata_keys = [k for k in portage.auxdbkeys \ if not k.startswith("UNUSED_")] + ["USE"] task_list = mymergelist # Filter mymergelist so that all the len(mymergelist) calls # below (for display) do not count Uninstall instances. mymergelist = [x for x in mymergelist if x[-1] == "merge"] mergecount=0 for x in task_list: if x[0] == "blocks": continue pkg_type, myroot, pkg_key, operation = x pkgindex=2 built = pkg_type != "ebuild" installed = pkg_type == "installed" portdb = self.trees[myroot]["porttree"].dbapi bindb = self.trees[myroot]["bintree"].dbapi vartree = self.trees[myroot]["vartree"] vardb = vartree.dbapi root_config = self.trees[myroot]["root_config"] pkgsettings = self.pkgsettings[myroot] metadata = {} if pkg_type == "blocks": pass elif pkg_type == "ebuild": mydbapi = portdb metadata.update(izip(metadata_keys, mydbapi.aux_get(pkg_key, metadata_keys))) pkgsettings.setcpv(pkg_key, mydb=mydbapi) metadata["USE"] = pkgsettings["PORTAGE_USE"] else: if pkg_type == "binary": mydbapi = bindb elif pkg_type == "installed": mydbapi = vardb else: raise AssertionError("Package type: '%s'" % pkg_type) try: metadata.update(izip(metadata_keys, mydbapi.aux_get(pkg_key, metadata_keys))) except KeyError: if not installed: raise # A package scheduled for uninstall apparently # isn't installed anymore. Since it's already # been uninstalled, move on to the next task. continue if not installed: mergecount += 1 pkg = Package(cpv=pkg_key, built=built, installed=installed, metadata=metadata, operation=operation, root=myroot, type_name=pkg_type) if pkg.installed: if not (buildpkgonly or fetchonly or pretend): self._uninstall_queue.append(pkg) continue if x[0]=="blocks": pkgindex=3 y = portdb.findname(pkg_key) if "--pretend" not in self.myopts: print "\n>>> Emerging (" + \ colorize("MERGE_LIST_PROGRESS", str(mergecount)) + " of " + \ colorize("MERGE_LIST_PROGRESS", str(len(mymergelist))) + ") " + \ colorize("GOOD", x[pkgindex]) + " to " + x[1] emergelog(xterm_titles, " >>> emerge ("+\ str(mergecount)+" of "+str(len(mymergelist))+\ ") "+x[pkgindex]+" to "+x[1]) pkgsettings["EMERGE_FROM"] = x[0] pkgsettings.backup_changes("EMERGE_FROM") pkgsettings.reset() #buildsyspkg: Check if we need to _force_ binary package creation issyspkg = ("buildsyspkg" in myfeat) \ and x[0] != "blocks" \ and system_set.findAtomForPackage(pkg_key, metadata) \ and "--buildpkg" not in self.myopts if x[0] in ["ebuild","blocks"]: if x[0] == "blocks" and "--fetchonly" not in self.myopts: raise Exception, "Merging a blocker" elif "--fetchonly" in self.myopts or \ "--fetch-all-uri" in self.myopts: if "--fetch-all-uri" in self.myopts: retval = portage.doebuild(y, "fetch", myroot, pkgsettings, self.edebug, "--pretend" in self.myopts, fetchonly=1, fetchall=1, mydbapi=portdb, tree="porttree") else: retval = portage.doebuild(y, "fetch", myroot, pkgsettings, self.edebug, "--pretend" in self.myopts, fetchonly=1, mydbapi=portdb, tree="porttree") if (retval is None) or retval: print print "!!! Fetch for",y,"failed, continuing..." print failed_fetches.append(pkg_key) self.curval += 1 continue portage.doebuild_environment(y, "setup", myroot, pkgsettings, self.edebug, 1, portdb) catdir = os.path.dirname(pkgsettings["PORTAGE_BUILDDIR"]) portage.util.ensure_dirs(os.path.dirname(catdir), uid=portage.portage_uid, gid=portage.portage_gid, mode=070, mask=0) builddir_lock = None catdir_lock = None try: catdir_lock = portage.locks.lockdir(catdir) portage.util.ensure_dirs(catdir, gid=portage.portage_gid, mode=070, mask=0) builddir_lock = portage.locks.lockdir( pkgsettings["PORTAGE_BUILDDIR"]) try: portage.locks.unlockdir(catdir_lock) finally: catdir_lock = None msg = " === (%s of %s) Cleaning (%s::%s)" % \ (mergecount, len(mymergelist), pkg_key, y) short_msg = "emerge: (%s of %s) %s Clean" % \ (mergecount, len(mymergelist), pkg_key) emergelog(xterm_titles, msg, short_msg=short_msg) retval = portage.doebuild(y, "clean", myroot, pkgsettings, self.edebug, cleanup=1, mydbapi=portdb, tree="porttree") if retval != os.EX_OK: return retval if "--buildpkg" in self.myopts or issyspkg: if issyspkg: print ">>> This is a system package, " + \ "let's pack a rescue tarball." msg = " === (%s of %s) Compiling/Packaging (%s::%s)" % \ (mergecount, len(mymergelist), pkg_key, y) short_msg = "emerge: (%s of %s) %s Compile" % \ (mergecount, len(mymergelist), pkg_key) emergelog(xterm_titles, msg, short_msg=short_msg) self.trees[myroot]["bintree"].prevent_collision(pkg_key) binpkg_tmpfile = os.path.join(pkgsettings["PKGDIR"], pkg_key + ".tbz2." + str(os.getpid())) pkgsettings["PORTAGE_BINPKG_TMPFILE"] = binpkg_tmpfile pkgsettings.backup_changes("PORTAGE_BINPKG_TMPFILE") retval = portage.doebuild(y, "package", myroot, pkgsettings, self.edebug, mydbapi=portdb, tree="porttree") del pkgsettings["PORTAGE_BINPKG_TMPFILE"] if retval != os.EX_OK or \ "--buildpkgonly" in self.myopts: elog_process(pkg_key, pkgsettings, phasefilter=filter_mergephases) if retval != os.EX_OK: return retval bintree = self.trees[myroot]["bintree"] bintree.inject(pkg_key, filename=binpkg_tmpfile) self._dequeue_uninstall_tasks(mtimedb) if "--buildpkgonly" not in self.myopts: msg = " === (%s of %s) Merging (%s::%s)" % \ (mergecount, len(mymergelist), pkg_key, y) short_msg = "emerge: (%s of %s) %s Merge" % \ (mergecount, len(mymergelist), pkg_key) emergelog(xterm_titles, msg, short_msg=short_msg) retval = portage.merge(pkgsettings["CATEGORY"], pkgsettings["PF"], pkgsettings["D"], os.path.join(pkgsettings["PORTAGE_BUILDDIR"], "build-info"), myroot, pkgsettings, myebuild=pkgsettings["EBUILD"], mytree="porttree", mydbapi=portdb, vartree=vartree, prev_mtimes=ldpath_mtimes) if retval != os.EX_OK: return retval elif "noclean" not in pkgsettings.features: portage.doebuild(y, "clean", myroot, pkgsettings, self.edebug, mydbapi=portdb, tree="porttree") else: msg = " === (%s of %s) Compiling/Merging (%s::%s)" % \ (mergecount, len(mymergelist), pkg_key, y) short_msg = "emerge: (%s of %s) %s Compile" % \ (mergecount, len(mymergelist), pkg_key) emergelog(xterm_titles, msg, short_msg=short_msg) retval = portage.doebuild(y, "install", myroot, pkgsettings, self.edebug, vartree=vartree, mydbapi=portdb, tree="porttree", prev_mtimes=ldpath_mtimes) if retval != os.EX_OK: return retval self._dequeue_uninstall_tasks(mtimedb) retval = portage.merge(pkgsettings["CATEGORY"], pkgsettings["PF"], pkgsettings["D"], os.path.join(pkgsettings["PORTAGE_BUILDDIR"], "build-info"), myroot, pkgsettings, myebuild=pkgsettings["EBUILD"], mytree="porttree", mydbapi=portdb, vartree=vartree, prev_mtimes=ldpath_mtimes) if retval != os.EX_OK: return retval finally: if builddir_lock: portage.locks.unlockdir(builddir_lock) try: if not catdir_lock: # Lock catdir for removal if empty. catdir_lock = portage.locks.lockdir(catdir) finally: if catdir_lock: try: os.rmdir(catdir) except OSError, e: if e.errno not in (errno.ENOENT, errno.ENOTEMPTY, errno.EEXIST): raise del e portage.locks.unlockdir(catdir_lock) elif x[0]=="binary": self._dequeue_uninstall_tasks(mtimedb) #merge the tbz2 mytbz2 = self.trees[myroot]["bintree"].getname(pkg_key) if "--getbinpkg" in self.myopts: tbz2_lock = None try: if "distlocks" in pkgsettings.features and \ os.access(pkgsettings["PKGDIR"], os.W_OK): portage.util.ensure_dirs(os.path.dirname(mytbz2)) tbz2_lock = portage.locks.lockfile(mytbz2, wantnewlockfile=1) if self.trees[myroot]["bintree"].isremote(pkg_key): msg = " --- (%s of %s) Fetching Binary (%s::%s)" %\ (mergecount, len(mymergelist), pkg_key, mytbz2) short_msg = "emerge: (%s of %s) %s Fetch" % \ (mergecount, len(mymergelist), pkg_key) emergelog(xterm_titles, msg, short_msg=short_msg) try: self.trees[myroot]["bintree"].gettbz2(pkg_key) except portage.exception.FileNotFound: writemsg("!!! Fetching Binary failed " + \ "for '%s'\n" % pkg_key, noiselevel=-1) if not fetchonly: return 1 failed_fetches.append(pkg_key) except portage.exception.DigestException, e: writemsg("\n!!! Digest verification failed:\n", noiselevel=-1) writemsg("!!! %s\n" % e.value[0], noiselevel=-1) writemsg("!!! Reason: %s\n" % e.value[1], noiselevel=-1) writemsg("!!! Got: %s\n" % e.value[2], noiselevel=-1) writemsg("!!! Expected: %s\n" % e.value[3], noiselevel=-1) os.unlink(mytbz2) if not fetchonly: return 1 failed_fetches.append(pkg_key) finally: if tbz2_lock: portage.locks.unlockfile(tbz2_lock) if "--fetchonly" in self.myopts or \ "--fetch-all-uri" in self.myopts: self.curval += 1 continue short_msg = "emerge: ("+str(mergecount)+" of "+str(len(mymergelist))+") "+x[pkgindex]+" Merge Binary" emergelog(xterm_titles, " === ("+str(mergecount)+\ " of "+str(len(mymergelist))+") Merging Binary ("+\ x[pkgindex]+"::"+mytbz2+")", short_msg=short_msg) retval = portage.pkgmerge(mytbz2, x[1], pkgsettings, mydbapi=bindb, vartree=self.trees[myroot]["vartree"], prev_mtimes=ldpath_mtimes) if retval != os.EX_OK: return retval #need to check for errors if "--buildpkgonly" not in self.myopts: self.trees[x[1]]["vartree"].inject(x[2]) myfavkey = portage.cpv_getkey(x[2]) if not fetchonly and not pretend and \ args_set.findAtomForPackage(pkg_key, metadata): world_set.lock() world_set.load() # maybe it's changed on disk myfavkey = create_world_atom(pkg_key, metadata, args_set, root_config) if myfavkey: print ">>> Recording",myfavkey,"in \"world\" favorites file..." emergelog(xterm_titles, " === ("+\ str(mergecount)+" of "+\ str(len(mymergelist))+\ ") Updating world file ("+x[pkgindex]+")") world_set.add(myfavkey) world_set.unlock() if "--pretend" not in self.myopts and \ "--fetchonly" not in self.myopts and \ "--fetch-all-uri" not in self.myopts: # Figure out if we need a restart. if myroot == "/" and pkg.cp == "sys-apps/portage": if len(mymergelist) > mergecount: emergelog(xterm_titles, " ::: completed emerge ("+ \ str(mergecount)+" of "+ \ str(len(mymergelist))+") "+ \ x[2]+" to "+x[1]) emergelog(xterm_titles, " *** RESTARTING " + \ "emerge via exec() after change of " + \ "portage version.") del mtimedb["resume"]["mergelist"][0] mtimedb.commit() portage.run_exitfuncs() mynewargv=[sys.argv[0],"--resume"] resume_opts = self.myopts.copy() # For automatic resume, we need to prevent # any of bad_resume_opts from leaking in # via EMERGE_DEFAULT_OPTS. resume_opts["--ignore-default-opts"] = True for myopt, myarg in resume_opts.iteritems(): if myopt not in bad_resume_opts: if myarg is True: mynewargv.append(myopt) else: mynewargv.append(myopt +"="+ myarg) # priority only needs to be adjusted on the first run os.environ["PORTAGE_NICENESS"] = "0" os.execv(mynewargv[0], mynewargv) if "--pretend" not in self.myopts and \ "--fetchonly" not in self.myopts and \ "--fetch-all-uri" not in self.myopts: if "noclean" not in self.settings.features: short_msg = "emerge: (%s of %s) %s Clean Post" % \ (mergecount, len(mymergelist), x[pkgindex]) emergelog(xterm_titles, (" === (%s of %s) " + \ "Post-Build Cleaning (%s::%s)") % \ (mergecount, len(mymergelist), x[pkgindex], y), short_msg=short_msg) emergelog(xterm_titles, " ::: completed emerge ("+\ str(mergecount)+" of "+str(len(mymergelist))+") "+\ x[2]+" to "+x[1]) # Unsafe for parallel merges del mtimedb["resume"]["mergelist"][0] # Commit after each merge so that --resume may still work in # in the event that portage is not allowed to exit normally # due to power failure, SIGKILL, etc... mtimedb.commit() self.curval += 1 self._poll_child_processes() if "--pretend" not in self.myopts: emergelog(xterm_titles, " *** Finished. Cleaning up...") # We're out of the loop... We're done. Delete the resume data. if mtimedb.has_key("resume"): del mtimedb["resume"] mtimedb.commit() #by doing an exit this way, --fetchonly can continue to try to #fetch everything even if a particular download fails. if "--fetchonly" in self.myopts or "--fetch-all-uri" in self.myopts: if failed_fetches: sys.stderr.write("\n\n!!! Some fetch errors were " + \ "encountered. Please see above for details.\n\n") for cpv in failed_fetches: sys.stderr.write(" ") sys.stderr.write(cpv) sys.stderr.write("\n") sys.stderr.write("\n") sys.exit(1) else: sys.exit(0) return os.EX_OK def unmerge(root_config, myopts, unmerge_action, unmerge_files, ldpath_mtimes, autoclean=0, clean_world=1, ordered=0): settings = root_config.settings sets = root_config.sets vartree = root_config.trees["vartree"] candidate_catpkgs=[] global_unmerge=0 xterm_titles = "notitles" not in settings.features vdb_path = os.path.join(settings["ROOT"], portage.VDB_PATH) try: # At least the parent needs to exist for the lock file. portage.util.ensure_dirs(vdb_path) except portage.exception.PortageException: pass vdb_lock = None try: if os.access(vdb_path, os.W_OK): vdb_lock = portage.locks.lockdir(vdb_path) realsyslist = sets["system"].getAtoms() syslist = [] for x in realsyslist: mycp = portage.dep_getkey(x) if mycp in settings.getvirtuals(): providers = [] for provider in settings.getvirtuals()[mycp]: if vartree.dbapi.match(provider): providers.append(provider) if len(providers) == 1: syslist.extend(providers) else: syslist.append(mycp) mysettings = portage.config(clone=settings) if not unmerge_files: if unmerge_action == "unmerge": print print bold("emerge unmerge") + " can only be used with specific package names" print return 0 else: global_unmerge = 1 localtree = vartree # process all arguments and add all # valid db entries to candidate_catpkgs if global_unmerge: if not unmerge_files: candidate_catpkgs.extend(vartree.dbapi.cp_all()) else: #we've got command-line arguments if not unmerge_files: print "\nNo packages to unmerge have been provided.\n" return 0 for x in unmerge_files: arg_parts = x.split('/') if x[0] not in [".","/"] and \ arg_parts[-1][-7:] != ".ebuild": #possible cat/pkg or dep; treat as such candidate_catpkgs.append(x) elif unmerge_action in ["prune","clean"]: print "\n!!! Prune and clean do not accept individual" + \ " ebuilds as arguments;\n skipping.\n" continue else: # it appears that the user is specifying an installed # ebuild and we're in "unmerge" mode, so it's ok. if not os.path.exists(x): print "\n!!! The path '"+x+"' doesn't exist.\n" return 0 absx = os.path.abspath(x) sp_absx = absx.split("/") if sp_absx[-1][-7:] == ".ebuild": del sp_absx[-1] absx = "/".join(sp_absx) sp_absx_len = len(sp_absx) vdb_path = os.path.join(settings["ROOT"], portage.VDB_PATH) vdb_len = len(vdb_path) sp_vdb = vdb_path.split("/") sp_vdb_len = len(sp_vdb) if not os.path.exists(absx+"/CONTENTS"): print "!!! Not a valid db dir: "+str(absx) return 0 if sp_absx_len <= sp_vdb_len: # The Path is shorter... so it can't be inside the vdb. print sp_absx print absx print "\n!!!",x,"cannot be inside "+ \ vdb_path+"; aborting.\n" return 0 for idx in range(0,sp_vdb_len): if idx >= sp_absx_len or sp_vdb[idx] != sp_absx[idx]: print sp_absx print absx print "\n!!!", x, "is not inside "+\ vdb_path+"; aborting.\n" return 0 print "="+"/".join(sp_absx[sp_vdb_len:]) candidate_catpkgs.append( "="+"/".join(sp_absx[sp_vdb_len:])) newline="" if (not "--quiet" in myopts): newline="\n" if settings["ROOT"] != "/": print darkgreen(newline+ \ ">>> Using system located in ROOT tree "+settings["ROOT"]) if (("--pretend" in myopts) or ("--ask" in myopts)) and \ not ("--quiet" in myopts): print darkgreen(newline+\ ">>> These are the packages that would be unmerged:") # Preservation of order is required for --depclean and --prune so # that dependencies are respected. Use all_selected to eliminate # duplicate packages since the same package may be selected by # multiple atoms. pkgmap = [] all_selected = set() for x in candidate_catpkgs: # cycle through all our candidate deps and determine # what will and will not get unmerged try: mymatch=localtree.dep_match(x) except KeyError: mymatch=None except ValueError, errpkgs: print "\n\n!!! The short ebuild name \"" + \ x + "\" is ambiguous. Please specify" print "!!! one of the following fully-qualified " + \ "ebuild names instead:\n" for i in errpkgs[0]: print " " + green(i) print sys.exit(1) if not mymatch and x[0] not in "<>=~": #add a "=" if missing mymatch=localtree.dep_match("="+x) if not mymatch: portage.writemsg("\n--- Couldn't find '%s' to %s.\n" % \ (x, unmerge_action), noiselevel=-1) continue pkgmap.append( {"protected": set(), "selected": set(), "omitted": set()}) mykey = len(pkgmap) - 1 if unmerge_action=="unmerge": for y in mymatch: if y not in all_selected: pkgmap[mykey]["selected"].add(y) all_selected.add(y) elif unmerge_action == "prune": if len(mymatch) == 1: continue best_version = mymatch[0] best_slot = vartree.getslot(best_version) best_counter = vartree.dbapi.cpv_counter(best_version) for mypkg in mymatch[1:]: myslot = vartree.getslot(mypkg) mycounter = vartree.dbapi.cpv_counter(mypkg) if (myslot == best_slot and mycounter > best_counter) or \ mypkg == portage.best([mypkg, best_version]): if myslot == best_slot: if mycounter < best_counter: # On slot collision, keep the one with the # highest counter since it is the most # recently installed. continue best_version = mypkg best_slot = myslot best_counter = mycounter pkgmap[mykey]["protected"].add(best_version) pkgmap[mykey]["selected"].update(mypkg for mypkg in mymatch \ if mypkg != best_version and mypkg not in all_selected) all_selected.update(pkgmap[mykey]["selected"]) else: # unmerge_action == "clean" slotmap={} for mypkg in mymatch: if unmerge_action == "clean": myslot = localtree.getslot(mypkg) else: # since we're pruning, we don't care about slots # and put all the pkgs in together myslot = 0 if not slotmap.has_key(myslot): slotmap[myslot] = {} slotmap[myslot][localtree.dbapi.cpv_counter(mypkg)] = mypkg for myslot in slotmap: counterkeys = slotmap[myslot].keys() if not counterkeys: continue counterkeys.sort() pkgmap[mykey]["protected"].add( slotmap[myslot][counterkeys[-1]]) del counterkeys[-1] #be pretty and get them in order of merge: for ckey in counterkeys: mypkg = slotmap[myslot][ckey] if mypkg not in all_selected: pkgmap[mykey]["selected"].add(mypkg) all_selected.add(mypkg) # ok, now the last-merged package # is protected, and the rest are selected numselected = len(all_selected) if global_unmerge and not numselected: portage.writemsg_stdout("\n>>> No outdated packages were found on your system.\n") return 0 if not numselected: portage.writemsg_stdout( "\n>>> No packages selected for removal by " + \ unmerge_action + "\n") return 0 finally: if vdb_lock: portage.locks.unlockdir(vdb_lock) from portage.sets.base import EditablePackageSet # generate a list of package sets that are directly or indirectly listed in "world", # as there is no persistent list of "installed" sets installed_sets = ["world"] stop = False pos = 0 while not stop: stop = True pos = len(installed_sets) for s in installed_sets[pos - 1:]: candidates = [x[len(SETPREFIX):] for x in sets[s].getNonAtoms() if x.startswith(SETPREFIX)] if candidates: stop = False installed_sets += candidates del stop, pos # we don't want to unmerge packages that are still listed in user-editable package sets # listed in "world" as they would be remerged on the next update of "world" or the # relevant package sets. for cp in xrange(len(pkgmap)): for cpv in pkgmap[cp]["selected"].copy(): parents = [] for s in installed_sets: # skip sets that the user requested to unmerge, and skip world # unless we're unmerging a package set (as the package would be # removed from "world" later on) if s in root_config.setconfig.active or (s == "world" and not root_config.setconfig.active): continue # only check instances of EditablePackageSet as other classes are generally used for # special purposes and can be ignored here (and are usually generated dynamically, so the # user can't do much about them anyway) elif sets[s].containsCPV(cpv) \ and isinstance(sets[s], EditablePackageSet): parents.append(s) if parents: #print colorize("WARN", "Package %s is going to be unmerged," % cpv) #print colorize("WARN", "but still listed in the following package sets:") #print " %s\n" % ", ".join(parents) print colorize("WARN", "Not unmerging package %s as it is" % cpv) print colorize("WARN", "still referenced by the following package sets:") print " %s\n" % ", ".join(parents) # adjust pkgmap so the display output is correct pkgmap[cp]["selected"].remove(cpv) pkgmap[cp]["protected"].add(cpv) del installed_sets # Unmerge order only matters in some cases if not ordered: unordered = {} for d in pkgmap: selected = d["selected"] if not selected: continue cp = portage.cpv_getkey(iter(selected).next()) cp_dict = unordered.get(cp) if cp_dict is None: cp_dict = {} unordered[cp] = cp_dict for k in d: cp_dict[k] = set() for k, v in d.iteritems(): cp_dict[k].update(v) pkgmap = [unordered[cp] for cp in sorted(unordered)] for x in xrange(len(pkgmap)): selected = pkgmap[x]["selected"] if not selected: continue for mytype, mylist in pkgmap[x].iteritems(): if mytype == "selected": continue mylist.difference_update(all_selected) cp = portage.cpv_getkey(iter(selected).next()) for y in localtree.dep_match(cp): if y not in pkgmap[x]["omitted"] and \ y not in pkgmap[x]["selected"] and \ y not in pkgmap[x]["protected"] and \ y not in all_selected: pkgmap[x]["omitted"].add(y) if global_unmerge and not pkgmap[x]["selected"]: #avoid cluttering the preview printout with stuff that isn't getting unmerged continue if not (pkgmap[x]["protected"] or pkgmap[x]["omitted"]) and cp in syslist: print colorize("BAD","\a\n\n!!! '%s' is part of your system profile." % cp) print colorize("WARN","\a!!! Unmerging it may be damaging to your system.\n") if "--pretend" not in myopts and "--ask" not in myopts: countdown(int(settings["EMERGE_WARNING_DELAY"]), colorize("UNMERGE_WARN", "Press Ctrl-C to Stop")) if "--quiet" not in myopts: print "\n "+bold(cp) else: print bold(cp)+": ", for mytype in ["selected","protected","omitted"]: if "--quiet" not in myopts: portage.writemsg_stdout((mytype + ": ").rjust(14), noiselevel=-1) if pkgmap[x][mytype]: sorted_pkgs = [portage.catpkgsplit(mypkg)[1:] for mypkg in pkgmap[x][mytype]] sorted_pkgs.sort(portage.pkgcmp) for pn, ver, rev in sorted_pkgs: if rev == "r0": myversion = ver else: myversion = ver + "-" + rev if mytype == "selected": portage.writemsg_stdout( colorize("UNMERGE_WARN", myversion + " "), noiselevel=-1) else: portage.writemsg_stdout( colorize("GOOD", myversion + " "), noiselevel=-1) else: portage.writemsg_stdout("none ", noiselevel=-1) if "--quiet" not in myopts: portage.writemsg_stdout("\n", noiselevel=-1) if "--quiet" in myopts: portage.writemsg_stdout("\n", noiselevel=-1) portage.writemsg_stdout("\n>>> " + colorize("UNMERGE_WARN", "'Selected'") + \ " packages are slated for removal.\n") portage.writemsg_stdout(">>> " + colorize("GOOD", "'Protected'") + \ " and " + colorize("GOOD", "'omitted'") + \ " packages will not be removed.\n\n") if "--pretend" in myopts: #we're done... return return 0 if "--ask" in myopts: if userquery("Would you like to unmerge these packages?")=="No": # enter pretend mode for correct formatting of results myopts["--pretend"] = True print print "Quitting." print return 0 #the real unmerging begins, after a short delay.... if not autoclean: countdown(int(settings["CLEAN_DELAY"]), ">>> Unmerging") for x in xrange(len(pkgmap)): for y in pkgmap[x]["selected"]: print ">>> Unmerging "+y+"..." emergelog(xterm_titles, "=== Unmerging... ("+y+")") mysplit = y.split("/") #unmerge... retval = portage.unmerge(mysplit[0], mysplit[1], settings["ROOT"], mysettings, unmerge_action not in ["clean","prune"], vartree=vartree, ldpath_mtimes=ldpath_mtimes) if retval != os.EX_OK: emergelog(xterm_titles, " !!! unmerge FAILURE: "+y) sys.exit(retval) else: if clean_world: sets["world"].cleanPackage(vartree.dbapi, y) emergelog(xterm_titles, " >>> unmerge success: "+y) return 1 def chk_updated_info_files(root, infodirs, prev_mtimes, retval): if os.path.exists("/usr/bin/install-info"): regen_infodirs=[] for z in infodirs: if z=='': continue inforoot=normpath(root+z) if os.path.isdir(inforoot): infomtime = long(os.stat(inforoot).st_mtime) if inforoot not in prev_mtimes or \ prev_mtimes[inforoot] != infomtime: regen_infodirs.append(inforoot) if not regen_infodirs: portage.writemsg_stdout("\n "+green("*")+" GNU info directory index is up-to-date.\n") else: portage.writemsg_stdout("\n "+green("*")+" Regenerating GNU info directory index...\n") dir_extensions = ("", ".gz", ".bz2") icount=0 badcount=0 for inforoot in regen_infodirs: if inforoot=='': continue if not os.path.isdir(inforoot): continue errmsg = "" file_list = os.listdir(inforoot) file_list.sort() dir_file = os.path.join(inforoot, "dir") moved_old_dir = False processed_count = 0 for x in file_list: if x.startswith(".") or \ os.path.isdir(os.path.join(inforoot, x)): continue if x.startswith("dir"): skip = False for ext in dir_extensions: if x == "dir" + ext or \ x == "dir" + ext + ".old": skip = True break if skip: continue if processed_count == 0: for ext in dir_extensions: try: os.rename(dir_file + ext, dir_file + ext + ".old") moved_old_dir = True except EnvironmentError, e: if e.errno != errno.ENOENT: raise del e processed_count += 1 myso=commands.getstatusoutput("LANG=C LANGUAGE=C /usr/bin/install-info --dir-file="+inforoot+"/dir "+inforoot+"/"+x)[1] existsstr="already exists, for file `" if myso!="": if re.search(existsstr,myso): # Already exists... Don't increment the count for this. pass elif myso[:44]=="install-info: warning: no info dir entry in ": # This info file doesn't contain a DIR-header: install-info produces this # (harmless) warning (the --quiet switch doesn't seem to work). # Don't increment the count for this. pass else: badcount=badcount+1 errmsg += myso + "\n" icount=icount+1 if moved_old_dir and not os.path.exists(dir_file): # We didn't generate a new dir file, so put the old file # back where it was originally found. for ext in dir_extensions: try: os.rename(dir_file + ext + ".old", dir_file + ext) except EnvironmentError, e: if e.errno != errno.ENOENT: raise del e # Clean dir.old cruft so that they don't prevent # unmerge of otherwise empty directories. for ext in dir_extensions: try: os.unlink(dir_file + ext + ".old") except EnvironmentError, e: if e.errno != errno.ENOENT: raise del e #update mtime so we can potentially avoid regenerating. prev_mtimes[inforoot] = long(os.stat(inforoot).st_mtime) if badcount: print " "+yellow("*")+" Processed",icount,"info files;",badcount,"errors." print errmsg else: if icount > 0: print " "+green("*")+" Processed",icount,"info files." def display_news_notification(trees): for target_root in trees: if len(trees) > 1 and target_root != "/": break settings = trees[target_root]["vartree"].settings portdb = trees[target_root]["porttree"].dbapi vardb = trees[target_root]["vartree"].dbapi NEWS_PATH = os.path.join("metadata", "news") UNREAD_PATH = os.path.join(target_root, NEWS_LIB_PATH, "news") newsReaderDisplay = False for repo in portdb.getRepositories(): unreadItems = checkUpdatedNewsItems( portdb, vardb, NEWS_PATH, UNREAD_PATH, repo) if unreadItems: if not newsReaderDisplay: newsReaderDisplay = True print print colorize("WARN", " * IMPORTANT:"), print "%s news items need reading for repository '%s'." % (unreadItems, repo) if newsReaderDisplay: print colorize("WARN", " *"), print "Use " + colorize("GOOD", "eselect news") + " to read news items." print def post_emerge(trees, mtimedb, retval): """ Misc. things to run at the end of a merge session. Update Info Files Update Config Files Update News Items Commit mtimeDB Display preserved libs warnings Exit Emerge @param trees: A dictionary mapping each ROOT to it's package databases @type trees: dict @param mtimedb: The mtimeDB to store data needed across merge invocations @type mtimedb: MtimeDB class instance @param retval: Emerge's return value @type retval: Int @rype: None @returns: 1. Calls sys.exit(retval) """ for target_root in trees: if len(trees) > 1 and target_root != "/": break vardbapi = trees[target_root]["vartree"].dbapi settings = vardbapi.settings info_mtimes = mtimedb["info"] # Load the most current variables from ${ROOT}/etc/profile.env settings.unlock() settings.reload() settings.regenerate() settings.lock() config_protect = settings.get("CONFIG_PROTECT","").split() infodirs = settings.get("INFOPATH","").split(":") + \ settings.get("INFODIR","").split(":") os.chdir("/") if retval == os.EX_OK: exit_msg = " *** exiting successfully." else: exit_msg = " *** exiting unsuccessfully with status '%s'." % retval emergelog("notitles" not in settings.features, exit_msg) # Dump the mod_echo output now so that our other notifications are shown # last. try: from portage.elog import mod_echo except ImportError: pass # happens during downgrade to a version without the module else: mod_echo.finalize() vdb_path = os.path.join(target_root, portage.VDB_PATH) portage.util.ensure_dirs(vdb_path) vdb_lock = portage.locks.lockdir(vdb_path) try: if "noinfo" not in settings.features: chk_updated_info_files(target_root, infodirs, info_mtimes, retval) mtimedb.commit() finally: portage.locks.unlockdir(vdb_lock) chk_updated_cfg_files(target_root, config_protect) display_news_notification(trees) if vardbapi.plib_registry.hasEntries(): print print colorize("WARN", "!!!") + " existing preserved libs:" plibdata = vardbapi.plib_registry.getPreservedLibs() for cpv in plibdata: print colorize("WARN", ">>>") + " package: %s" % cpv for f in plibdata[cpv]: print colorize("WARN", " * ") + " - %s" % f print "Use " + colorize("GOOD", "emerge @preserved-rebuild") + " to rebuild packages using these libraries" sys.exit(retval) def chk_updated_cfg_files(target_root, config_protect): if config_protect: #number of directories with some protect files in them procount=0 for x in config_protect: x = os.path.join(target_root, x.lstrip(os.path.sep)) if not os.access(x, os.W_OK): # Avoid Permission denied errors generated # later by `find`. continue try: mymode = os.lstat(x).st_mode except OSError: continue if stat.S_ISLNK(mymode): # We want to treat it like a directory if it # is a symlink to an existing directory. try: real_mode = os.stat(x).st_mode if stat.S_ISDIR(real_mode): mymode = real_mode except OSError: pass if stat.S_ISDIR(mymode): mycommand = "find '%s' -iname '._cfg????_*'" % x else: mycommand = "find '%s' -maxdepth 1 -iname '._cfg????_%s'" % \ os.path.split(x.rstrip(os.path.sep)) mycommand += " ! -iname '.*~' ! -iname '.*.bak' -print0" a = commands.getstatusoutput(mycommand) if a[0] != 0: sys.stderr.write(" %s error scanning '%s': " % (bad("*"), x)) sys.stderr.flush() # Show the error message alone, sending stdout to /dev/null. os.system(mycommand + " 1>/dev/null") else: files = a[1].split('\0') # split always produces an empty string as the last element if files and not files[-1]: del files[-1] if files: procount += 1 print "\n"+colorize("WARN", " * IMPORTANT:"), if stat.S_ISDIR(mymode): print "%d config files in '%s' need updating." % \ (len(files), x) else: print "config file '%s' needs updating." % x if procount: print " "+yellow("*")+" See the "+colorize("INFORM","CONFIGURATION FILES")+ \ " section of the " + bold("emerge") print " "+yellow("*")+" man page to learn how to update config files." def checkUpdatedNewsItems(portdb, vardb, NEWS_PATH, UNREAD_PATH, repo_id): """ Examines news items in repodir + '/' + NEWS_PATH and attempts to find unread items Returns the number of unread (yet relevent) items. @param portdb: a portage tree database @type portdb: pordbapi @param vardb: an installed package database @type vardb: vardbapi @param NEWS_PATH: @type NEWS_PATH: @param UNREAD_PATH: @type UNREAD_PATH: @param repo_id: @type repo_id: @rtype: Integer @returns: 1. The number of unread but relevant news items. """ from portage.news import NewsManager manager = NewsManager(portdb, vardb, NEWS_PATH, UNREAD_PATH) return manager.getUnreadItems( repo_id, update=True ) def insert_category_into_atom(atom, category): alphanum = re.search(r'\w', atom) if alphanum: ret = atom[:alphanum.start()] + "%s/" % category + \ atom[alphanum.start():] else: ret = None return ret def is_valid_package_atom(x): if "/" not in x: alphanum = re.search(r'\w', x) if alphanum: x = x[:alphanum.start()] + "cat/" + x[alphanum.start():] return portage.isvalidatom(x) def show_blocker_docs_link(): print print "For more information about " + bad("Blocked Packages") + ", please refer to the following" print "section of the Gentoo Linux x86 Handbook (architecture is irrelevant):" print print "http://www.gentoo.org/doc/en/handbook/handbook-x86.xml?full=1#blocked" print def show_mask_docs(): print "For more information, see the MASKED PACKAGES section in the emerge" print "man page or refer to the Gentoo Handbook." def action_sync(settings, trees, mtimedb, myopts, myaction): xterm_titles = "notitles" not in settings.features emergelog(xterm_titles, " === sync") myportdir = settings.get("PORTDIR", None) if not myportdir: sys.stderr.write("!!! PORTDIR is undefined. Is /etc/make.globals missing?\n") sys.exit(1) if myportdir[-1]=="/": myportdir=myportdir[:-1] if not os.path.exists(myportdir): print ">>>",myportdir,"not found, creating it." os.makedirs(myportdir,0755) syncuri=settings["SYNC"].rstrip() os.umask(0022) updatecache_flg = False if myaction == "metadata": print "skipping sync" updatecache_flg = True elif syncuri[:8]=="rsync://": if not os.path.exists("/usr/bin/rsync"): print "!!! /usr/bin/rsync does not exist, so rsync support is disabled." print "!!! Type \"emerge net-misc/rsync\" to enable rsync support." sys.exit(1) mytimeout=180 rsync_opts = [] import shlex, StringIO if settings["PORTAGE_RSYNC_OPTS"] == "": portage.writemsg("PORTAGE_RSYNC_OPTS empty or unset, using hardcoded defaults\n") rsync_opts.extend([ "--recursive", # Recurse directories "--links", # Consider symlinks "--safe-links", # Ignore links outside of tree "--perms", # Preserve permissions "--times", # Preserive mod times "--compress", # Compress the data transmitted "--force", # Force deletion on non-empty dirs "--whole-file", # Don't do block transfers, only entire files "--delete", # Delete files that aren't in the master tree "--stats", # Show final statistics about what was transfered "--timeout="+str(mytimeout), # IO timeout if not done in X seconds "--exclude=/distfiles", # Exclude distfiles from consideration "--exclude=/local", # Exclude local from consideration "--exclude=/packages", # Exclude packages from consideration ]) else: # The below validation is not needed when using the above hardcoded # defaults. portage.writemsg("Using PORTAGE_RSYNC_OPTS instead of hardcoded defaults\n", 1) lexer = shlex.shlex(StringIO.StringIO( settings.get("PORTAGE_RSYNC_OPTS","")), posix=True) lexer.whitespace_split = True rsync_opts.extend(lexer) del lexer for opt in ("--recursive", "--times"): if opt not in rsync_opts: portage.writemsg(yellow("WARNING:") + " adding required option " + \ "%s not included in PORTAGE_RSYNC_OPTS\n" % opt) rsync_opts.append(opt) for exclude in ("distfiles", "local", "packages"): opt = "--exclude=/%s" % exclude if opt not in rsync_opts: portage.writemsg(yellow("WARNING:") + \ " adding required option %s not included in " % opt + \ "PORTAGE_RSYNC_OPTS (can be overridden with --exclude='!')\n") rsync_opts.append(opt) if settings["RSYNC_TIMEOUT"] != "": portage.writemsg("WARNING: usage of RSYNC_TIMEOUT is deprecated, " + \ "use PORTAGE_RSYNC_EXTRA_OPTS instead\n") try: mytimeout = int(settings["RSYNC_TIMEOUT"]) rsync_opts.append("--timeout=%d" % mytimeout) except ValueError, e: portage.writemsg("!!! %s\n" % str(e)) # TODO: determine options required for official servers if syncuri.rstrip("/").endswith(".gentoo.org/gentoo-portage"): def rsync_opt_startswith(opt_prefix): for x in rsync_opts: if x.startswith(opt_prefix): return True return False if not rsync_opt_startswith("--timeout="): rsync_opts.append("--timeout=%d" % mytimeout) for opt in ("--compress", "--whole-file"): if opt not in rsync_opts: portage.writemsg(yellow("WARNING:") + " adding required option " + \ "%s not included in PORTAGE_RSYNC_OPTS\n" % opt) rsync_opts.append(opt) if "--quiet" in myopts: rsync_opts.append("--quiet") # Shut up a lot else: rsync_opts.append("--verbose") # Print filelist if "--verbose" in myopts: rsync_opts.append("--progress") # Progress meter for each file if "--debug" in myopts: rsync_opts.append("--checksum") # Force checksum on all files if settings["RSYNC_EXCLUDEFROM"] != "": portage.writemsg(yellow("WARNING:") + \ " usage of RSYNC_EXCLUDEFROM is deprecated, use " + \ "PORTAGE_RSYNC_EXTRA_OPTS instead\n") if os.path.exists(settings["RSYNC_EXCLUDEFROM"]): rsync_opts.append("--exclude-from=%s" % \ settings["RSYNC_EXCLUDEFROM"]) else: portage.writemsg("!!! RSYNC_EXCLUDEFROM specified," + \ " but file does not exist.\n") if settings["RSYNC_RATELIMIT"] != "": portage.writemsg(yellow("WARNING:") + \ " usage of RSYNC_RATELIMIT is deprecated, use " + \ "PORTAGE_RSYNC_EXTRA_OPTS instead") rsync_opts.append("--bwlimit=%s" % \ settings["RSYNC_RATELIMIT"]) # Real local timestamp file. servertimestampfile = os.path.join( myportdir, "metadata", "timestamp.chk") content = portage.util.grabfile(servertimestampfile) mytimestamp = 0 if content: try: mytimestamp = time.mktime(time.strptime(content[0], "%a, %d %b %Y %H:%M:%S +0000")) except (OverflowError, ValueError): pass del content try: rsync_initial_timeout = \ int(settings.get("PORTAGE_RSYNC_INITIAL_TIMEOUT", "15")) except ValueError: rsync_initial_timeout = 15 try: if settings.has_key("RSYNC_RETRIES"): print yellow("WARNING:")+" usage of RSYNC_RETRIES is deprecated, use PORTAGE_RSYNC_RETRIES instead" maxretries=int(settings["RSYNC_RETRIES"]) else: maxretries=int(settings["PORTAGE_RSYNC_RETRIES"]) except SystemExit, e: raise # Needed else can't exit except: maxretries=3 #default number of retries retries=0 user_name, hostname, port = re.split( "rsync://([^:/]+@)?([^:/]*)(:[0-9]+)?", syncuri, maxsplit=3)[1:4] if port is None: port="" if user_name is None: user_name="" updatecache_flg=True all_rsync_opts = set(rsync_opts) lexer = shlex.shlex(StringIO.StringIO( settings.get("PORTAGE_RSYNC_EXTRA_OPTS","")), posix=True) lexer.whitespace_split = True extra_rsync_opts = list(lexer) del lexer all_rsync_opts.update(extra_rsync_opts) family = socket.AF_INET if "-4" in all_rsync_opts or "--ipv4" in all_rsync_opts: family = socket.AF_INET elif socket.has_ipv6 and \ ("-6" in all_rsync_opts or "--ipv6" in all_rsync_opts): family = socket.AF_INET6 ips=[] SERVER_OUT_OF_DATE = -1 EXCEEDED_MAX_RETRIES = -2 while (1): if ips: del ips[0] if ips==[]: try: for addrinfo in socket.getaddrinfo( hostname, None, family, socket.SOCK_STREAM): if addrinfo[0] == socket.AF_INET6: # IPv6 addresses need to be enclosed in square brackets ips.append("[%s]" % addrinfo[4][0]) else: ips.append(addrinfo[4][0]) from random import shuffle shuffle(ips) except SystemExit, e: raise # Needed else can't exit except Exception, e: print "Notice:",str(e) dosyncuri=syncuri if ips: try: dosyncuri = syncuri.replace( "//" + user_name + hostname + port + "/", "//" + user_name + ips[0] + port + "/", 1) except SystemExit, e: raise # Needed else can't exit except Exception, e: print "Notice:",str(e) dosyncuri=syncuri if (retries==0): if "--ask" in myopts: if userquery("Do you want to sync your Portage tree with the mirror at\n" + blue(dosyncuri) + bold("?"))=="No": print print "Quitting." print sys.exit(0) emergelog(xterm_titles, ">>> Starting rsync with " + dosyncuri) if "--quiet" not in myopts: print ">>> Starting rsync with "+dosyncuri+"..." else: emergelog(xterm_titles, ">>> Starting retry %d of %d with %s" % \ (retries,maxretries,dosyncuri)) print "\n\n>>> Starting retry %d of %d with %s" % (retries,maxretries,dosyncuri) if mytimestamp != 0 and "--quiet" not in myopts: print ">>> Checking server timestamp ..." rsynccommand = ["/usr/bin/rsync"] + rsync_opts + extra_rsync_opts if "--debug" in myopts: print rsynccommand exitcode = os.EX_OK servertimestamp = 0 # Even if there's no timestamp available locally, fetch the # timestamp anyway as an initial probe to verify that the server is # responsive. This protects us from hanging indefinitely on a # connection attempt to an unresponsive server which rsync's # --timeout option does not prevent. if True: # Temporary file for remote server timestamp comparison. from tempfile import mkstemp fd, tmpservertimestampfile = mkstemp() os.close(fd) mycommand = rsynccommand[:] mycommand.append(dosyncuri.rstrip("/") + \ "/metadata/timestamp.chk") mycommand.append(tmpservertimestampfile) content = None mypids = [] try: def timeout_handler(signum, frame): raise portage.exception.PortageException("timed out") signal.signal(signal.SIGALRM, timeout_handler) # Timeout here in case the server is unresponsive. The # --timeout rsync option doesn't apply to the initial # connection attempt. if rsync_initial_timeout: signal.alarm(rsync_initial_timeout) try: mypids.extend(portage.process.spawn( mycommand, env=settings.environ(), returnpid=True)) exitcode = os.waitpid(mypids[0], 0)[1] content = portage.grabfile(tmpservertimestampfile) finally: if rsync_initial_timeout: signal.alarm(0) try: os.unlink(tmpservertimestampfile) except OSError: pass except portage.exception.PortageException, e: # timed out print e del e if mypids and os.waitpid(mypids[0], os.WNOHANG) == (0,0): os.kill(mypids[0], signal.SIGTERM) os.waitpid(mypids[0], 0) # This is the same code rsync uses for timeout. exitcode = 30 else: if exitcode != os.EX_OK: if exitcode & 0xff: exitcode = (exitcode & 0xff) << 8 else: exitcode = exitcode >> 8 if mypids: portage.process.spawned_pids.remove(mypids[0]) if content: try: servertimestamp = time.mktime(time.strptime( content[0], "%a, %d %b %Y %H:%M:%S +0000")) except (OverflowError, ValueError): pass del mycommand, mypids, content if exitcode == os.EX_OK: if (servertimestamp != 0) and (servertimestamp == mytimestamp): emergelog(xterm_titles, ">>> Cancelling sync -- Already current.") print print ">>>" print ">>> Timestamps on the server and in the local repository are the same." print ">>> Cancelling all further sync action. You are already up to date." print ">>>" print ">>> In order to force sync, remove '%s'." % servertimestampfile print ">>>" print sys.exit(0) elif (servertimestamp != 0) and (servertimestamp < mytimestamp): emergelog(xterm_titles, ">>> Server out of date: %s" % dosyncuri) print print ">>>" print ">>> SERVER OUT OF DATE: %s" % dosyncuri print ">>>" print ">>> In order to force sync, remove '%s'." % servertimestampfile print ">>>" print exitcode = SERVER_OUT_OF_DATE elif (servertimestamp == 0) or (servertimestamp > mytimestamp): # actual sync mycommand = rsynccommand + [dosyncuri+"/", myportdir] exitcode = portage.process.spawn(mycommand, env=settings.environ()) if exitcode in [0,1,3,4,11,14,20,21]: break elif exitcode in [1,3,4,11,14,20,21]: break else: # Code 2 indicates protocol incompatibility, which is expected # for servers with protocol < 29 that don't support # --prune-empty-directories. Retry for a server that supports # at least rsync protocol version 29 (>=rsync-2.6.4). pass retries=retries+1 if retries<=maxretries: print ">>> Retrying..." time.sleep(11) else: # over retries # exit loop updatecache_flg=False exitcode = EXCEEDED_MAX_RETRIES break if (exitcode==0): emergelog(xterm_titles, "=== Sync completed with %s" % dosyncuri) elif exitcode == SERVER_OUT_OF_DATE: sys.exit(1) elif exitcode == EXCEEDED_MAX_RETRIES: sys.stderr.write( ">>> Exceeded PORTAGE_RSYNC_RETRIES: %s\n" % maxretries) sys.exit(1) elif (exitcode>0): print if exitcode==1: print darkred("!!!")+green(" Rsync has reported that there is a syntax error. Please ensure") print darkred("!!!")+green(" that your SYNC statement is proper.") print darkred("!!!")+green(" SYNC="+settings["SYNC"]) elif exitcode==11: print darkred("!!!")+green(" Rsync has reported that there is a File IO error. Normally") print darkred("!!!")+green(" this means your disk is full, but can be caused by corruption") print darkred("!!!")+green(" on the filesystem that contains PORTDIR. Please investigate") print darkred("!!!")+green(" and try again after the problem has been fixed.") print darkred("!!!")+green(" PORTDIR="+settings["PORTDIR"]) elif exitcode==20: print darkred("!!!")+green(" Rsync was killed before it finished.") else: print darkred("!!!")+green(" Rsync has not successfully finished. It is recommended that you keep") print darkred("!!!")+green(" trying or that you use the 'emerge-webrsync' option if you are unable") print darkred("!!!")+green(" to use rsync due to firewall or other restrictions. This should be a") print darkred("!!!")+green(" temporary problem unless complications exist with your network") print darkred("!!!")+green(" (and possibly your system's filesystem) configuration.") print sys.exit(exitcode) elif syncuri[:6]=="cvs://": if not os.path.exists("/usr/bin/cvs"): print "!!! /usr/bin/cvs does not exist, so CVS support is disabled." print "!!! Type \"emerge dev-util/cvs\" to enable CVS support." sys.exit(1) cvsroot=syncuri[6:] cvsdir=os.path.dirname(myportdir) if not os.path.exists(myportdir+"/CVS"): #initial checkout print ">>> Starting initial cvs checkout with "+syncuri+"..." if os.path.exists(cvsdir+"/gentoo-x86"): print "!!! existing",cvsdir+"/gentoo-x86 directory; exiting." sys.exit(1) try: os.rmdir(myportdir) except OSError, e: if e.errno != errno.ENOENT: sys.stderr.write( "!!! existing '%s' directory; exiting.\n" % myportdir) sys.exit(1) del e if portage.spawn("cd "+cvsdir+"; cvs -z0 -d "+cvsroot+" co -P gentoo-x86",settings,free=1): print "!!! cvs checkout error; exiting." sys.exit(1) os.rename(os.path.join(cvsdir, "gentoo-x86"), myportdir) else: #cvs update print ">>> Starting cvs update with "+syncuri+"..." retval = portage.spawn("cd '%s'; cvs -z0 -q update -dP" % \ myportdir, settings, free=1) if retval != os.EX_OK: sys.exit(retval) dosyncuri = syncuri else: print "!!! rsync setting: ",syncuri,"not recognized; exiting." sys.exit(1) if updatecache_flg and \ myaction != "metadata" and \ "metadata-transfer" not in settings.features: updatecache_flg = False # Reload the whole config from scratch. settings, trees, mtimedb = load_emerge_config(trees=trees) portdb = trees[settings["ROOT"]]["porttree"].dbapi if os.path.exists(myportdir+"/metadata/cache") and updatecache_flg: action_metadata(settings, portdb, myopts) if portage._global_updates(trees, mtimedb["updates"]): mtimedb.commit() # Reload the whole config from scratch. settings, trees, mtimedb = load_emerge_config(trees=trees) portdb = trees[settings["ROOT"]]["porttree"].dbapi mybestpv = portdb.xmatch("bestmatch-visible", "sys-apps/portage") mypvs = portage.best( trees[settings["ROOT"]]["vartree"].dbapi.match("sys-apps/portage")) chk_updated_cfg_files("/", settings.get("CONFIG_PROTECT","").split()) if myaction != "metadata": if os.access(portage.USER_CONFIG_PATH + "/bin/post_sync", os.X_OK): retval = portage.process.spawn( [os.path.join(portage.USER_CONFIG_PATH, "bin", "post_sync"), dosyncuri], env=settings.environ()) if retval != os.EX_OK: print red(" * ")+bold("spawn failed of "+ portage.USER_CONFIG_PATH + "/bin/post_sync") if(mybestpv != mypvs) and not "--quiet" in myopts: print print red(" * ")+bold("An update to portage is available.")+" It is _highly_ recommended" print red(" * ")+"that you update portage now, before any other packages are updated." print print red(" * ")+"To update portage, run 'emerge portage' now." print display_news_notification(trees) def action_metadata(settings, portdb, myopts): portage.writemsg_stdout("\n>>> Updating Portage cache: ") old_umask = os.umask(0002) cachedir = os.path.normpath(settings.depcachedir) if cachedir in ["/", "/bin", "/dev", "/etc", "/home", "/lib", "/opt", "/proc", "/root", "/sbin", "/sys", "/tmp", "/usr", "/var"]: print >> sys.stderr, "!!! PORTAGE_DEPCACHEDIR IS SET TO A PRIMARY " + \ "ROOT DIRECTORY ON YOUR SYSTEM." print >> sys.stderr, \ "!!! This is ALMOST CERTAINLY NOT what you want: '%s'" % cachedir sys.exit(73) if not os.path.exists(cachedir): os.mkdir(cachedir) ec = portage.eclass_cache.cache(portdb.porttree_root) myportdir = os.path.realpath(settings["PORTDIR"]) cm = settings.load_best_module("portdbapi.metadbmodule")( myportdir, "metadata/cache", portage.auxdbkeys[:], readonly=True) from portage.cache import util class percentage_noise_maker(util.quiet_mirroring): def __init__(self, dbapi): self.dbapi = dbapi self.cp_all = dbapi.cp_all() l = len(self.cp_all) self.call_update_min = 100000000 self.min_cp_all = l/100.0 self.count = 1 self.pstr = '' def __iter__(self): for x in self.cp_all: self.count += 1 if self.count > self.min_cp_all: self.call_update_min = 0 self.count = 0 for y in self.dbapi.cp_list(x): yield y self.call_update_mine = 0 def update(self, *arg): try: self.pstr = int(self.pstr) + 1 except ValueError: self.pstr = 1 sys.stdout.write("%s%i%%" % \ ("\b" * (len(str(self.pstr))+1), self.pstr)) sys.stdout.flush() self.call_update_min = 10000000 def finish(self, *arg): sys.stdout.write("\b\b\b\b100%\n") sys.stdout.flush() if "--quiet" in myopts: def quicky_cpv_generator(cp_all_list): for x in cp_all_list: for y in portdb.cp_list(x): yield y source = quicky_cpv_generator(portdb.cp_all()) noise_maker = portage.cache.util.quiet_mirroring() else: noise_maker = source = percentage_noise_maker(portdb) portage.cache.util.mirror_cache(source, cm, portdb.auxdb[myportdir], eclass_cache=ec, verbose_instance=noise_maker) sys.stdout.flush() os.umask(old_umask) def action_regen(settings, portdb): xterm_titles = "notitles" not in settings.features emergelog(xterm_titles, " === regen") #regenerate cache entries portage.writemsg_stdout("Regenerating cache entries...\n") try: os.close(sys.stdin.fileno()) except SystemExit, e: raise # Needed else can't exit except: pass sys.stdout.flush() mynodes = portdb.cp_all() from portage.cache.cache_errors import CacheError dead_nodes = {} for mytree in portdb.porttrees: try: dead_nodes[mytree] = set(portdb.auxdb[mytree].iterkeys()) except CacheError, e: portage.writemsg("Error listing cache entries for " + \ "'%s': %s, continuing...\n" % (mytree, e), noiselevel=-1) del e dead_nodes = None break for x in mynodes: mymatches = portdb.cp_list(x) portage.writemsg_stdout("Processing %s\n" % x) for y in mymatches: try: foo = portdb.aux_get(y,["DEPEND"]) except (KeyError, portage.exception.PortageException), e: portage.writemsg( "Error processing %(cpv)s, continuing... (%(e)s)\n" % \ {"cpv":y,"e":str(e)}, noiselevel=-1) if dead_nodes: for mytree in portdb.porttrees: if portdb.findname2(y, mytree=mytree)[0]: dead_nodes[mytree].discard(y) if dead_nodes: for mytree, nodes in dead_nodes.iteritems(): auxdb = portdb.auxdb[mytree] for y in nodes: try: del auxdb[y] except (KeyError, CacheError): pass portage.writemsg_stdout("done!\n") def action_config(settings, trees, myopts, myfiles): if len(myfiles) != 1: print red("!!! config can only take a single package atom at this time\n") sys.exit(1) if not is_valid_package_atom(myfiles[0]): portage.writemsg("!!! '%s' is not a valid package atom.\n" % myfiles[0], noiselevel=-1) portage.writemsg("!!! Please check ebuild(5) for full details.\n") portage.writemsg("!!! (Did you specify a version but forget to prefix with '='?)\n") sys.exit(1) print try: pkgs = trees[settings["ROOT"]]["vartree"].dbapi.match(myfiles[0]) except ValueError, e: # Multiple matches thrown from cpv_expand pkgs = e.args[0] if len(pkgs) == 0: print "No packages found.\n" sys.exit(0) elif len(pkgs) > 1: if "--ask" in myopts: options = [] print "Please select a package to configure:" idx = 0 for pkg in pkgs: idx += 1 options.append(str(idx)) print options[-1]+") "+pkg print "X) Cancel" options.append("X") idx = userquery("Selection?", options) if idx == "X": sys.exit(0) pkg = pkgs[int(idx)-1] else: print "The following packages available:" for pkg in pkgs: print "* "+pkg print "\nPlease use a specific atom or the --ask option." sys.exit(1) else: pkg = pkgs[0] print if "--ask" in myopts: if userquery("Ready to configure "+pkg+"?") == "No": sys.exit(0) else: print "Configuring pkg..." print ebuildpath = trees[settings["ROOT"]]["vartree"].dbapi.findname(pkg) mysettings = portage.config(clone=settings) vardb = trees[mysettings["ROOT"]]["vartree"].dbapi debug = mysettings.get("PORTAGE_DEBUG") == "1" retval = portage.doebuild(ebuildpath, "config", mysettings["ROOT"], mysettings, debug=(settings.get("PORTAGE_DEBUG", "") == 1), cleanup=True, mydbapi=trees[settings["ROOT"]]["vartree"].dbapi, tree="vartree") if retval == os.EX_OK: portage.doebuild(ebuildpath, "clean", mysettings["ROOT"], mysettings, debug=debug, mydbapi=vardb, tree="vartree") print def action_info(settings, trees, myopts, myfiles): unameout=commands.getstatusoutput("uname -mrp")[1] print getportageversion(settings["PORTDIR"], settings["ROOT"], settings.profile_path, settings["CHOST"], trees[settings["ROOT"]]["vartree"].dbapi) header_width = 65 header_title = "System Settings" if myfiles: print header_width * "=" print header_title.rjust(int(header_width/2 + len(header_title)/2)) print header_width * "=" print "System uname: "+unameout lastSync = portage.grabfile(os.path.join( settings["PORTDIR"], "metadata", "timestamp.chk")) print "Timestamp of tree:", if lastSync: print lastSync[0] else: print "Unknown" output=commands.getstatusoutput("distcc --version") if not output[0]: print str(output[1].split("\n",1)[0]), if "distcc" in settings.features: print "[enabled]" else: print "[disabled]" output=commands.getstatusoutput("ccache -V") if not output[0]: print str(output[1].split("\n",1)[0]), if "ccache" in settings.features: print "[enabled]" else: print "[disabled]" myvars = ["sys-devel/autoconf", "sys-devel/automake", "virtual/os-headers", "sys-devel/binutils", "sys-devel/libtool", "dev-lang/python"] myvars += portage.util.grabfile(settings["PORTDIR"]+"/profiles/info_pkgs") myvars = portage.util.unique_array(myvars) myvars.sort() for x in myvars: if portage.isvalidatom(x): pkg_matches = trees["/"]["vartree"].dbapi.match(x) pkg_matches = [portage.catpkgsplit(cpv)[1:] for cpv in pkg_matches] pkg_matches.sort(portage.pkgcmp) pkgs = [] for pn, ver, rev in pkg_matches: if rev != "r0": pkgs.append(ver + "-" + rev) else: pkgs.append(ver) if pkgs: pkgs = ", ".join(pkgs) print "%-20s %s" % (x+":", pkgs) else: print "%-20s %s" % (x+":", "[NOT VALID]") libtool_vers = ",".join(trees["/"]["vartree"].dbapi.match("sys-devel/libtool")) if "--verbose" in myopts: myvars=settings.keys() else: myvars = ['GENTOO_MIRRORS', 'CONFIG_PROTECT', 'CONFIG_PROTECT_MASK', 'PORTDIR', 'DISTDIR', 'PKGDIR', 'PORTAGE_TMPDIR', 'PORTDIR_OVERLAY', 'USE', 'CHOST', 'CFLAGS', 'CXXFLAGS', 'ACCEPT_KEYWORDS', 'SYNC', 'FEATURES', 'EMERGE_DEFAULT_OPTS'] myvars.extend(portage.util.grabfile(settings["PORTDIR"]+"/profiles/info_vars")) myvars = portage.util.unique_array(myvars) unset_vars = [] myvars.sort() for x in myvars: if x in settings: if x != "USE": print '%s="%s"' % (x, settings[x]) else: use = set(settings["USE"].split()) use_expand = settings["USE_EXPAND"].split() use_expand.sort() for varname in use_expand: flag_prefix = varname.lower() + "_" for f in list(use): if f.startswith(flag_prefix): use.remove(f) use = list(use) use.sort() print 'USE="%s"' % " ".join(use), for varname in use_expand: myval = settings.get(varname) if myval: print '%s="%s"' % (varname, myval), print else: unset_vars.append(x) if unset_vars: print "Unset: "+", ".join(unset_vars) print if "--debug" in myopts: for x in dir(portage): module = getattr(portage, x) if "cvs_id_string" in dir(module): print "%s: %s" % (str(x), str(module.cvs_id_string)) # See if we can find any packages installed matching the strings # passed on the command line mypkgs = [] vardb = trees[settings["ROOT"]]["vartree"].dbapi portdb = trees[settings["ROOT"]]["porttree"].dbapi for x in myfiles: mypkgs.extend(vardb.match(x)) # If some packages were found... if mypkgs: # Get our global settings (we only print stuff if it varies from # the current config) mydesiredvars = [ 'CHOST', 'CFLAGS', 'CXXFLAGS' ] auxkeys = mydesiredvars + [ "USE", "IUSE"] global_vals = {} pkgsettings = portage.config(clone=settings) for myvar in mydesiredvars: global_vals[myvar] = set(settings.get(myvar, "").split()) # Loop through each package # Only print settings if they differ from global settings header_title = "Package Settings" print header_width * "=" print header_title.rjust(int(header_width/2 + len(header_title)/2)) print header_width * "=" from portage.output import EOutput out = EOutput() for pkg in mypkgs: # Get all package specific variables auxvalues = vardb.aux_get(pkg, auxkeys) valuesmap = {} for i in xrange(len(auxkeys)): valuesmap[auxkeys[i]] = set(auxvalues[i].split()) diff_values = {} for myvar in mydesiredvars: # If the package variable doesn't match the # current global variable, something has changed # so set diff_found so we know to print if valuesmap[myvar] != global_vals[myvar]: diff_values[myvar] = valuesmap[myvar] valuesmap["IUSE"] = set(filter_iuse_defaults(valuesmap["IUSE"])) valuesmap["USE"] = valuesmap["USE"].intersection(valuesmap["IUSE"]) pkgsettings.reset() # If a matching ebuild is no longer available in the tree, maybe it # would make sense to compare against the flags for the best # available version with the same slot? mydb = None if portdb.cpv_exists(pkg): mydb = portdb pkgsettings.setcpv(pkg, mydb=mydb) if valuesmap["IUSE"].intersection( pkgsettings["PORTAGE_USE"].split()) != valuesmap["USE"]: diff_values["USE"] = valuesmap["USE"] # If a difference was found, print the info for # this package. if diff_values: # Print package info print "%s was built with the following:" % pkg for myvar in mydesiredvars + ["USE"]: if myvar in diff_values: mylist = list(diff_values[myvar]) mylist.sort() print "%s=\"%s\"" % (myvar, " ".join(mylist)) print print ">>> Attempting to run pkg_info() for '%s'" % pkg ebuildpath = vardb.findname(pkg) if not ebuildpath or not os.path.exists(ebuildpath): out.ewarn("No ebuild found for '%s'" % pkg) continue portage.doebuild(ebuildpath, "info", pkgsettings["ROOT"], pkgsettings, debug=(settings.get("PORTAGE_DEBUG", "") == 1), mydbapi=trees[settings["ROOT"]]["vartree"].dbapi, tree="vartree") def action_search(root_config, myopts, myfiles, spinner): if not myfiles: print "emerge: no search terms provided." else: searchinstance = search(root_config, spinner, "--searchdesc" in myopts, "--quiet" not in myopts, "--usepkg" in myopts, "--usepkgonly" in myopts) for mysearch in myfiles: try: searchinstance.execute(mysearch) except re.error, comment: print "\n!!! Regular expression error in \"%s\": %s" % ( mysearch, comment ) sys.exit(1) searchinstance.output() def action_depclean(settings, trees, ldpath_mtimes, myopts, action, myfiles, spinner): # Kill packages that aren't explicitly merged or are required as a # dependency of another package. World file is explicit. # Global depclean or prune operations are not very safe when there are # missing dependencies since it's unknown how badly incomplete # the dependency graph is, and we might accidentally remove packages # that should have been pulled into the graph. On the other hand, it's # relatively safe to ignore missing deps when only asked to remove # specific packages. allow_missing_deps = len(myfiles) > 0 msg = [] msg.append("Depclean may break link level dependencies. Thus, it is\n") msg.append("recommended to use a tool such as " + good("`revdep-rebuild`") + " (from\n") msg.append("app-portage/gentoolkit) in order to detect such breakage.\n") msg.append("\n") msg.append("Also study the list of packages to be cleaned for any obvious\n") msg.append("mistakes. Packages that are part of the world set will always\n") msg.append("be kept. They can be manually added to this set with\n") msg.append(good("`emerge --noreplace `") + ". Packages that are listed in\n") msg.append("package.provided (see portage(5)) will be removed by\n") msg.append("depclean, even if they are part of the world set.\n") msg.append("\n") msg.append("As a safety measure, depclean will not remove any packages\n") msg.append("unless *all* required dependencies have been resolved. As a\n") msg.append("consequence, it is often necessary to run\n") msg.append(good("`emerge --update --newuse --deep world`") + " prior to depclean.\n") if action == "depclean" and "--quiet" not in myopts and not myfiles: portage.writemsg_stdout("\n") for x in msg: portage.writemsg_stdout(colorize("BAD", "*** WARNING *** ") + x) xterm_titles = "notitles" not in settings.features myroot = settings["ROOT"] portdb = trees[myroot]["porttree"].dbapi pkg_cache = {} dep_check_trees = {} dep_check_trees[myroot] = {} dep_check_trees[myroot]["vartree"] = \ FakeVartree(trees[myroot]["vartree"], trees[myroot]["porttree"].dbapi, depgraph._mydbapi_keys, pkg_cache) vardb = dep_check_trees[myroot]["vartree"].dbapi # Constrain dependency selection to the installed packages. dep_check_trees[myroot]["porttree"] = dep_check_trees[myroot]["vartree"] root_config = trees[myroot]["root_config"] setconfig = root_config.setconfig syslist = setconfig.getSetAtoms("system") worldlist = setconfig.getSetAtoms("world") args_set = InternalPackageSet() fakedb = portage.fakedbapi(settings=settings) myvarlist = vardb.cpv_all() if not syslist: print "\n!!! You have no system list.", if not worldlist: print "\n!!! You have no world file.", if not myvarlist: print "\n!!! You have no installed package database (%s)." % portage.VDB_PATH, if not (syslist and worldlist and myvarlist): print "\n!!! Proceeding "+(syslist and myvarlist and "may" or "will") print " break your installation.\n" if "--pretend" not in myopts: countdown(int(settings["EMERGE_WARNING_DELAY"]), ">>> Depclean") if action == "depclean": emergelog(xterm_titles, " >>> depclean") if myfiles: for x in myfiles: if not is_valid_package_atom(x): portage.writemsg("!!! '%s' is not a valid package atom.\n" % x, noiselevel=-1) portage.writemsg("!!! Please check ebuild(5) for full details.\n") return try: atom = portage.dep_expand(x, mydb=vardb, settings=settings) except ValueError, e: print "!!! The short ebuild name \"" + x + "\" is ambiguous. Please specify" print "!!! one of the following fully-qualified ebuild names instead:\n" for i in e[0]: print " " + colorize("INFORM", i) print return args_set.add(atom) matched_packages = False for x in args_set: if vardb.match(x): matched_packages = True break if not matched_packages: portage.writemsg_stdout( ">>> No packages selected for removal by %s\n" % action) return if "--quiet" not in myopts: print "\nCalculating dependencies ", runtime = UnmergeDepPriority(runtime=True) runtime_post = UnmergeDepPriority(runtime_post=True) buildtime = UnmergeDepPriority(buildtime=True) priority_map = { "RDEPEND": runtime, "PDEPEND": runtime_post, "DEPEND": buildtime, } remaining_atoms = [] if action == "depclean": for atom in syslist: if vardb.match(atom): remaining_atoms.append((atom, 'system', runtime)) if myfiles: # Pull in everything that's installed since we don't want # to clean any package if something depends on it. remaining_atoms.extend( ("="+cpv, 'world', runtime) for cpv in vardb.cpv_all()) else: for atom in worldlist: if vardb.match(atom): remaining_atoms.append((atom, 'world', runtime)) elif action == "prune": for atom in syslist: if vardb.match(atom): remaining_atoms.append((atom, 'system', runtime)) # Pull in everything that's installed since we don't want to prune a # package if something depends on it. remaining_atoms.extend( (atom, 'world', runtime) for atom in vardb.cp_all()) if not myfiles: # Try to prune everything that's slotted. for cp in vardb.cp_all(): if len(vardb.cp_list(cp)) > 1: args_set.add(cp) unresolveable = {} aux_keys = ["DEPEND", "RDEPEND", "PDEPEND"] metadata_keys = depgraph._mydbapi_keys graph = digraph() with_bdeps = myopts.get("--with-bdeps", "y") == "y" while remaining_atoms: atom, parent, priority = remaining_atoms.pop() pkgs = vardb.match(atom) if not pkgs: if priority > UnmergeDepPriority.SOFT: unresolveable.setdefault(atom, []).append(parent) continue if action == "depclean" and parent == "world" and myfiles: # Filter out packages given as arguments since the user wants # to remove those. filtered_pkgs = [] for pkg in pkgs: metadata = dict(izip(metadata_keys, vardb.aux_get(pkg, metadata_keys))) arg_atom = None try: arg_atom = args_set.findAtomForPackage(pkg, metadata) except portage.exception.InvalidDependString, e: file_path = os.path.join( myroot, portage.VDB_PATH, pkg, "PROVIDE") portage.writemsg("\n\nInvalid PROVIDE: %s\n" % str(e), noiselevel=-1) portage.writemsg("See '%s'\n" % file_path, noiselevel=-1) del e if not arg_atom: filtered_pkgs.append(pkg) pkgs = filtered_pkgs if len(pkgs) > 1: # For consistency with the update algorithm, keep the highest # visible version and prune any versions that are old or masked. for cpv in reversed(pkgs): if visible(settings, pkg_cache[("installed", myroot, cpv, "nomerge")]): pkgs = [cpv] break if len(pkgs) > 1: # They're all masked, so just keep the highest version. pkgs = [pkgs[-1]] for pkg in pkgs: graph.add(pkg, parent, priority=priority) if fakedb.cpv_exists(pkg): continue spinner.update() fakedb.cpv_inject(pkg) myaux = dict(izip(aux_keys, vardb.aux_get(pkg, aux_keys))) mydeps = [] usedef = vardb.aux_get(pkg, ["USE"])[0].split() for dep_type, depstr in myaux.iteritems(): if not depstr: continue if not with_bdeps and dep_type == "DEPEND": continue priority = priority_map[dep_type] if "--debug" in myopts: print print "Parent: ", pkg print "Depstring:", depstr print "Priority:", priority try: portage.dep._dep_check_strict = False success, atoms = portage.dep_check(depstr, None, settings, myuse=usedef, trees=dep_check_trees, myroot=myroot) finally: portage.dep._dep_check_strict = True if not success: show_invalid_depstring_notice( ("installed", myroot, pkg, "nomerge"), depstr, atoms) return if "--debug" in myopts: print "Candidates:", atoms for atom in atoms: if atom.startswith("!"): continue remaining_atoms.append((atom, pkg, priority)) if "--quiet" not in myopts: print "\b\b... done!\n" if unresolveable and not allow_missing_deps: print "Dependencies could not be completely resolved due to" print "the following required packages not being installed:" print for atom in unresolveable: print atom, "required by", " ".join(unresolveable[atom]) if unresolveable and not allow_missing_deps: print print "Have you forgotten to run " + good("`emerge --update --newuse --deep world`") + " prior to" print "%s? It may be necessary to manually uninstall packages that no longer" % action print "exist in the portage tree since it may not be possible to satisfy their" print "dependencies. Also, be aware of the --with-bdeps option that is documented" print "in " + good("`man emerge`") + "." print if action == "prune": print "If you would like to ignore dependencies then use %s." % \ good("--nodeps") return def show_parents(child_node): parent_nodes = graph.parent_nodes(child_node) if not parent_nodes: # With --prune, the highest version can be pulled in without any # real parent since all installed packages are pulled in. In that # case there's nothing to show here. return parent_nodes.sort() msg = [] msg.append(" %s pulled in by:\n" % str(child_node)) for parent_node in parent_nodes: msg.append(" %s\n" % str(parent_node)) msg.append("\n") portage.writemsg_stdout("".join(msg), noiselevel=-1) cleanlist = [] if action == "depclean": if myfiles: for pkg in vardb.cpv_all(): metadata = dict(izip(metadata_keys, vardb.aux_get(pkg, metadata_keys))) arg_atom = None try: arg_atom = args_set.findAtomForPackage(pkg, metadata) except portage.exception.InvalidDependString: # this error has already been displayed by now continue if arg_atom: if not fakedb.cpv_exists(pkg): cleanlist.append(pkg) elif "--verbose" in myopts: show_parents(pkg) else: for pkg in vardb.cpv_all(): if not fakedb.cpv_exists(pkg): cleanlist.append(pkg) elif "--verbose" in myopts: show_parents(pkg) elif action == "prune": # Prune really uses all installed instead of world. It's not a real # reverse dependency so don't display it as such. if graph.contains("world"): graph.remove("world") for atom in args_set: for pkg in vardb.match(atom): if not fakedb.cpv_exists(pkg): cleanlist.append(pkg) elif "--verbose" in myopts: show_parents(pkg) if not cleanlist: portage.writemsg_stdout( ">>> No packages selected for removal by %s\n" % action) if "--verbose" not in myopts: portage.writemsg_stdout( ">>> To see reverse dependencies, use %s\n" % \ good("--verbose")) if action == "prune": portage.writemsg_stdout( ">>> To ignore dependencies, use %s\n" % \ good("--nodeps")) if len(cleanlist): # Use a topological sort to create an unmerge order such that # each package is unmerged before it's dependencies. This is # necessary to avoid breaking things that may need to run # during pkg_prerm or pkg_postrm phases. # Create a new graph to account for dependencies between the # packages being unmerged. graph = digraph() clean_set = set(cleanlist) del cleanlist[:] for node in clean_set: graph.add(node, None) myaux = dict(izip(aux_keys, vardb.aux_get(node, aux_keys))) mydeps = [] usedef = vardb.aux_get(node, ["USE"])[0].split() for dep_type, depstr in myaux.iteritems(): if not depstr: continue try: portage.dep._dep_check_strict = False success, atoms = portage.dep_check(depstr, None, settings, myuse=usedef, trees=dep_check_trees, myroot=myroot) finally: portage.dep._dep_check_strict = True if not success: show_invalid_depstring_notice( ("installed", myroot, node, "nomerge"), depstr, atoms) return priority = priority_map[dep_type] for atom in atoms: if atom.startswith("!"): continue matches = vardb.match(atom) if not matches: continue for cpv in matches: if cpv in clean_set: graph.add(cpv, node, priority=priority) ordered = True if len(graph.order) == len(graph.root_nodes()): # If there are no dependencies between packages # let unmerge() group them by cat/pn. ordered = False cleanlist = graph.all_nodes() else: # Order nodes from lowest to highest overall reference count for # optimal root node selection. node_refcounts = {} for node in graph.order: node_refcounts[node] = len(graph.parent_nodes(node)) def cmp_reference_count(node1, node2): return node_refcounts[node1] - node_refcounts[node2] graph.order.sort(cmp_reference_count) ignore_priority_range = [None] ignore_priority_range.extend( xrange(UnmergeDepPriority.MIN, UnmergeDepPriority.MAX + 1)) while not graph.empty(): for ignore_priority in ignore_priority_range: nodes = graph.root_nodes(ignore_priority=ignore_priority) if nodes: break if not nodes: raise AssertionError("no root nodes") if ignore_priority is not None: # Some deps have been dropped due to circular dependencies, # so only pop one node in order do minimize the number that # are dropped. del nodes[1:] for node in nodes: graph.remove(node) cleanlist.append(node) unmerge(root_config, myopts, "unmerge", cleanlist, ldpath_mtimes, ordered=ordered) if action == "prune": return if not cleanlist and "--quiet" in myopts: return print "Packages installed: "+str(len(myvarlist)) print "Packages in world: "+str(len(worldlist)) print "Packages in system: "+str(len(syslist)) print "Unique package names: "+str(len(myvarlist)) print "Required packages: "+str(len(fakedb.cpv_all())) if "--pretend" in myopts: print "Number to remove: "+str(len(cleanlist)) else: print "Number removed: "+str(len(cleanlist)) def action_build(settings, trees, mtimedb, myopts, myaction, myfiles, spinner): ldpath_mtimes = mtimedb["ldpath"] favorites=[] merge_count = 0 buildpkgonly = "--buildpkgonly" in myopts pretend = "--pretend" in myopts fetchonly = "--fetchonly" in myopts or "--fetch-all-uri" in myopts ask = "--ask" in myopts tree = "--tree" in myopts verbose = "--verbose" in myopts quiet = "--quiet" in myopts if pretend or fetchonly: # make the mtimedb readonly mtimedb.filename = None if "--digest" in myopts: msg = "The --digest option can prevent corruption from being" + \ " noticed. The `repoman manifest` command is the preferred" + \ " way to generate manifests and it is capable of doing an" + \ " entire repository or category at once." prefix = bad(" * ") writemsg(prefix + "\n") from textwrap import wrap for line in wrap(msg, 72): writemsg("%s%s\n" % (prefix, line)) writemsg(prefix + "\n") if "--quiet" not in myopts and \ ("--pretend" in myopts or "--ask" in myopts or \ "--tree" in myopts or "--verbose" in myopts): action = "" if "--fetchonly" in myopts or "--fetch-all-uri" in myopts: action = "fetched" elif "--buildpkgonly" in myopts: action = "built" else: action = "merged" if "--tree" in myopts and action != "fetched": # Tree doesn't work with fetching print print darkgreen("These are the packages that would be %s, in reverse order:") % action print else: print print darkgreen("These are the packages that would be %s, in order:") % action print # validate the state of the resume data # so that we can make assumptions later. for k in ("resume", "resume_backup"): if k in mtimedb: if "mergelist" in mtimedb[k]: if not mtimedb[k]["mergelist"]: del mtimedb[k] else: del mtimedb[k] show_spinner = "--quiet" not in myopts and "--nodeps" not in myopts if not show_spinner: spinner.update = spinner.update_quiet if "--resume" in myopts and \ ("resume" in mtimedb or "resume_backup" in mtimedb): if "resume" not in mtimedb: mtimedb["resume"] = mtimedb["resume_backup"] del mtimedb["resume_backup"] mtimedb.commit() # Adjust config according to options of the command being resumed. for myroot in trees: mysettings = trees[myroot]["vartree"].settings mysettings.unlock() adjust_config(myopts, mysettings) mysettings.lock() del myroot, mysettings # "myopts" is a list for backward compatibility. resume_opts = mtimedb["resume"].get("myopts", []) if isinstance(resume_opts, list): resume_opts = dict((k,True) for k in resume_opts) for opt in ("--skipfirst", "--ask", "--tree"): resume_opts.pop(opt, None) myopts.update(resume_opts) if show_spinner: print "Calculating dependencies ", myparams = create_depgraph_params(myopts, myaction) mydepgraph = depgraph(settings, trees, myopts, myparams, spinner) try: mydepgraph.loadResumeCommand(mtimedb["resume"]) except portage.exception.PackageNotFound: if show_spinner: print from portage.output import EOutput out = EOutput() out.eerror("Error: The resume list contains packages that are no longer") out.eerror(" available to be emerged. Please restart/continue") out.eerror(" the merge operation manually.") # delete the current list and also the backup # since it's probably stale too. for k in ("resume", "resume_backup"): mtimedb.pop(k, None) mtimedb.commit() return 1 if show_spinner: print "\b\b... done!" else: if ("--resume" in myopts): print darkgreen("emerge: It seems we have nothing to resume...") return os.EX_OK myparams = create_depgraph_params(myopts, myaction) if "--quiet" not in myopts and "--nodeps" not in myopts: print "Calculating dependencies ", sys.stdout.flush() mydepgraph = depgraph(settings, trees, myopts, myparams, spinner) try: retval, favorites = mydepgraph.select_files(myfiles) except portage.exception.PackageNotFound, e: portage.writemsg("\n!!! %s\n" % str(e), noiselevel=-1) return 1 if not retval: mydepgraph.display_problems() return 1 if "--quiet" not in myopts and "--nodeps" not in myopts: print "\b\b... done!" display = pretend or \ ((ask or tree or verbose) and not (quiet and not ask)) if not display: mydepgraph.display_problems() if "--pretend" not in myopts and \ ("--ask" in myopts or "--tree" in myopts or \ "--verbose" in myopts) and \ not ("--quiet" in myopts and "--ask" not in myopts): if "--resume" in myopts: mymergelist = mtimedb["resume"]["mergelist"] if "--skipfirst" in myopts: mymergelist = mymergelist[1:] if len(mymergelist) == 0: print colorize("INFORM", "emerge: It seems we have nothing to resume...") return os.EX_OK favorites = mtimedb["resume"]["favorites"] retval = mydepgraph.display(mymergelist, favorites=favorites) if retval != os.EX_OK: return retval prompt="Would you like to resume merging these packages?" else: retval = mydepgraph.display( mydepgraph.altlist(reversed=("--tree" in myopts)), favorites=favorites) if retval != os.EX_OK: return retval mergecount=0 for x in mydepgraph.altlist(): if isinstance(x, Blocker) and x.satisfied: continue if x[0] != "blocks" and x[3] != "nomerge": mergecount+=1 #check for blocking dependencies if x[0]=="blocks" and "--fetchonly" not in myopts and "--fetch-all-uri" not in myopts: print "\n!!! Error: The above package list contains packages which cannot be installed" print "!!! at the same time on the same system." if "--quiet" not in myopts: show_blocker_docs_link() return 1 if mergecount==0: if "--noreplace" in myopts and favorites: print for x in favorites: print " %s %s" % (good("*"), x) prompt="Would you like to add these packages to your world favorites?" elif settings["AUTOCLEAN"] and "yes"==settings["AUTOCLEAN"]: prompt="Nothing to merge; would you like to auto-clean packages?" else: print print "Nothing to merge; quitting." print return os.EX_OK elif "--fetchonly" in myopts or "--fetch-all-uri" in myopts: prompt="Would you like to fetch the source files for these packages?" else: prompt="Would you like to merge these packages?" print if "--ask" in myopts and userquery(prompt) == "No": print print "Quitting." print return os.EX_OK # Don't ask again (e.g. when auto-cleaning packages after merge) myopts.pop("--ask", None) if ("--pretend" in myopts) and not ("--fetchonly" in myopts or "--fetch-all-uri" in myopts): if ("--resume" in myopts): mymergelist = mtimedb["resume"]["mergelist"] if "--skipfirst" in myopts: mymergelist = mymergelist[1:] if len(mymergelist) == 0: print colorize("INFORM", "emerge: It seems we have nothing to resume...") return os.EX_OK favorites = mtimedb["resume"]["favorites"] retval = mydepgraph.display(mymergelist, favorites=favorites) if retval != os.EX_OK: return retval else: retval = mydepgraph.display( mydepgraph.altlist(reversed=("--tree" in myopts)), favorites=favorites) if retval != os.EX_OK: return retval if "--buildpkgonly" in myopts: graph_copy = mydepgraph.digraph.clone() for node in list(graph_copy.order): if not isinstance(node, Package): graph_copy.remove(node) if not graph_copy.hasallzeros(ignore_priority=DepPriority.MEDIUM): print "\n!!! --buildpkgonly requires all dependencies to be merged." print "!!! You have to merge the dependencies before you can build this package.\n" return 1 else: if "--buildpkgonly" in myopts: graph_copy = mydepgraph.digraph.clone() for node in list(graph_copy.order): if not isinstance(node, Package): graph_copy.remove(node) if not graph_copy.hasallzeros(ignore_priority=DepPriority.MEDIUM): print "\n!!! --buildpkgonly requires all dependencies to be merged." print "!!! Cannot merge requested packages. Merge deps and try again.\n" return 1 if ("--resume" in myopts): favorites=mtimedb["resume"]["favorites"] mergetask = MergeTask(settings, trees, myopts) if "PORTAGE_PARALLEL_FETCHONLY" in settings: """ parallel-fetch uses --resume --fetchonly and we don't want it to write the mtimedb""" mtimedb.filename = None time.sleep(3) # allow the parent to have first fetch del mydepgraph retval = mergetask.merge( mtimedb["resume"]["mergelist"], favorites, mtimedb) merge_count = mergetask.curval else: if "resume" in mtimedb and \ "mergelist" in mtimedb["resume"] and \ len(mtimedb["resume"]["mergelist"]) > 1: mtimedb["resume_backup"] = mtimedb["resume"] del mtimedb["resume"] mtimedb.commit() mtimedb["resume"]={} # XXX: Stored as a list for backward compatibility. mtimedb["resume"]["myopts"] = \ [k for k in myopts if myopts[k] is True] mtimedb["resume"]["favorites"]=favorites if ("--digest" in myopts) and not ("--fetchonly" in myopts or "--fetch-all-uri" in myopts): for pkgline in mydepgraph.altlist(): if pkgline[0]=="ebuild" and pkgline[3]=="merge": y = trees[pkgline[1]]["porttree"].dbapi.findname(pkgline[2]) tmpsettings = portage.config(clone=settings) edebug = 0 if settings.get("PORTAGE_DEBUG", "") == "1": edebug = 1 retval = portage.doebuild( y, "digest", settings["ROOT"], tmpsettings, edebug, ("--pretend" in myopts), mydbapi=trees[pkgline[1]]["porttree"].dbapi, tree="porttree") pkglist = mydepgraph.altlist() if fetchonly or "--buildpkgonly" in myopts: pkglist = [pkg for pkg in pkglist if pkg[0] != "blocks"] else: for x in pkglist: if isinstance(x, Blocker) and x.satisfied: continue if x[0] != "blocks": continue retval = mydepgraph.display(mydepgraph.altlist( reversed=("--tree" in myopts)), favorites=favorites) msg = "Error: The above package list contains " + \ "packages which cannot be installed " + \ "at the same time on the same system." prefix = bad(" * ") from textwrap import wrap print for line in wrap(msg, 70): print prefix + line if "--quiet" not in myopts: show_blocker_docs_link() return 1 mydepgraph.saveNomergeFavorites() del mydepgraph mergetask = MergeTask(settings, trees, myopts) retval = mergetask.merge(pkglist, favorites, mtimedb) merge_count = mergetask.curval if retval == os.EX_OK and not (pretend or fetchonly): mtimedb.pop("resume", None) if "yes" == settings.get("AUTOCLEAN"): portage.writemsg_stdout(">>> Auto-cleaning packages...\n") unmerge(trees[settings["ROOT"]]["root_config"], myopts, "clean", [], ldpath_mtimes, autoclean=1) else: portage.writemsg_stdout(colorize("WARN", "WARNING:") + " AUTOCLEAN is disabled. This can cause serious" + " problems due to overlapping packages.\n") if merge_count and not (buildpkgonly or fetchonly or pretend): post_emerge(trees, mtimedb, retval) return retval def multiple_actions(action1, action2): sys.stderr.write("\n!!! Multiple actions requested... Please choose one only.\n") sys.stderr.write("!!! '%s' or '%s'\n\n" % (action1, action2)) sys.exit(1) def parse_opts(tmpcmdline, silent=False): myaction=None myopts = {} myfiles=[] global actions, options, shortmapping longopt_aliases = {"--cols":"--columns", "--skip-first":"--skipfirst"} argument_options = { "--config-root": { "help":"specify the location for portage configuration files", "action":"store" }, "--color": { "help":"enable or disable color output", "type":"choice", "choices":("y", "n") }, "--with-bdeps": { "help":"include unnecessary build time dependencies", "type":"choice", "choices":("y", "n") }, "--reinstall": { "help":"specify conditions to trigger package reinstallation", "type":"choice", "choices":["changed-use"] } } from optparse import OptionParser parser = OptionParser() if parser.has_option("--help"): parser.remove_option("--help") for action_opt in actions: parser.add_option("--" + action_opt, action="store_true", dest=action_opt.replace("-", "_"), default=False) for myopt in options: parser.add_option(myopt, action="store_true", dest=myopt.lstrip("--").replace("-", "_"), default=False) for shortopt, longopt in shortmapping.iteritems(): parser.add_option("-" + shortopt, action="store_true", dest=longopt.lstrip("--").replace("-", "_"), default=False) for myalias, myopt in longopt_aliases.iteritems(): parser.add_option(myalias, action="store_true", dest=myopt.lstrip("--").replace("-", "_"), default=False) for myopt, kwargs in argument_options.iteritems(): parser.add_option(myopt, dest=myopt.lstrip("--").replace("-", "_"), **kwargs) myoptions, myargs = parser.parse_args(args=tmpcmdline) for myopt in options: v = getattr(myoptions, myopt.lstrip("--").replace("-", "_")) if v: myopts[myopt] = True for myopt in argument_options: v = getattr(myoptions, myopt.lstrip("--").replace("-", "_"), None) if v is not None: myopts[myopt] = v for action_opt in actions: v = getattr(myoptions, action_opt.replace("-", "_")) if v: if myaction: multiple_actions(myaction, action_opt) sys.exit(1) myaction = action_opt for x in myargs: if x in actions and myaction != "search": if not silent: print red("*** Deprecated use of action '%s', use '--%s' instead" % (x,x)) # special case "search" so people can search for action terms, e.g. emerge -s sync if myaction: multiple_actions(myaction, x) sys.exit(1) myaction = x else: myfiles.append(x) if "--nocolor" in myopts: if not silent: sys.stderr.write("*** Deprecated use of '--nocolor', " + \ "use '--color=n' instead.\n") del myopts["--nocolor"] myopts["--color"] = "n" return myaction, myopts, myfiles def validate_ebuild_environment(trees): for myroot in trees: settings = trees[myroot]["vartree"].settings settings.validate() def load_emerge_config(trees=None): kwargs = {} for k, envvar in (("config_root", "PORTAGE_CONFIGROOT"), ("target_root", "ROOT")): kwargs[k] = os.environ.get(envvar, None) trees = portage.create_trees(trees=trees, **kwargs) for root, root_trees in trees.iteritems(): settings = root_trees["vartree"].settings setconfig = load_default_config(settings, root_trees) root_trees["root_config"] = RootConfig(settings, root_trees, setconfig) settings = trees["/"]["vartree"].settings for myroot in trees: if myroot != "/": settings = trees[myroot]["vartree"].settings break mtimedbfile = os.path.join("/", portage.CACHE_PATH.lstrip(os.path.sep), "mtimedb") mtimedb = portage.MtimeDB(mtimedbfile) return settings, trees, mtimedb def adjust_config(myopts, settings): """Make emerge specific adjustments to the config.""" # To enhance usability, make some vars case insensitive by forcing them to # lower case. for myvar in ("AUTOCLEAN", "NOCOLOR"): if myvar in settings: settings[myvar] = settings[myvar].lower() settings.backup_changes(myvar) del myvar # Kill noauto as it will break merges otherwise. if "noauto" in settings.features: while "noauto" in settings.features: settings.features.remove("noauto") settings["FEATURES"] = " ".join(settings.features) settings.backup_changes("FEATURES") CLEAN_DELAY = 5 try: CLEAN_DELAY = int(settings.get("CLEAN_DELAY", str(CLEAN_DELAY))) except ValueError, e: portage.writemsg("!!! %s\n" % str(e), noiselevel=-1) portage.writemsg("!!! Unable to parse integer: CLEAN_DELAY='%s'\n" % \ settings["CLEAN_DELAY"], noiselevel=-1) settings["CLEAN_DELAY"] = str(CLEAN_DELAY) settings.backup_changes("CLEAN_DELAY") EMERGE_WARNING_DELAY = 10 try: EMERGE_WARNING_DELAY = int(settings.get( "EMERGE_WARNING_DELAY", str(EMERGE_WARNING_DELAY))) except ValueError, e: portage.writemsg("!!! %s\n" % str(e), noiselevel=-1) portage.writemsg("!!! Unable to parse integer: EMERGE_WARNING_DELAY='%s'\n" % \ settings["EMERGE_WARNING_DELAY"], noiselevel=-1) settings["EMERGE_WARNING_DELAY"] = str(EMERGE_WARNING_DELAY) settings.backup_changes("EMERGE_WARNING_DELAY") if "--quiet" in myopts: settings["PORTAGE_QUIET"]="1" settings.backup_changes("PORTAGE_QUIET") # Set so that configs will be merged regardless of remembered status if ("--noconfmem" in myopts): settings["NOCONFMEM"]="1" settings.backup_changes("NOCONFMEM") # Set various debug markers... They should be merged somehow. PORTAGE_DEBUG = 0 try: PORTAGE_DEBUG = int(settings.get("PORTAGE_DEBUG", str(PORTAGE_DEBUG))) if PORTAGE_DEBUG not in (0, 1): portage.writemsg("!!! Invalid value: PORTAGE_DEBUG='%i'\n" % \ PORTAGE_DEBUG, noiselevel=-1) portage.writemsg("!!! PORTAGE_DEBUG must be either 0 or 1\n", noiselevel=-1) PORTAGE_DEBUG = 0 except ValueError, e: portage.writemsg("!!! %s\n" % str(e), noiselevel=-1) portage.writemsg("!!! Unable to parse integer: PORTAGE_DEBUG='%s'\n" %\ settings["PORTAGE_DEBUG"], noiselevel=-1) del e if "--debug" in myopts: PORTAGE_DEBUG = 1 settings["PORTAGE_DEBUG"] = str(PORTAGE_DEBUG) settings.backup_changes("PORTAGE_DEBUG") if settings.get("NOCOLOR") not in ("yes","true"): portage.output.havecolor = 1 """The explicit --color < y | n > option overrides the NOCOLOR environment variable and stdout auto-detection.""" if "--color" in myopts: if "y" == myopts["--color"]: portage.output.havecolor = 1 settings["NOCOLOR"] = "false" else: portage.output.havecolor = 0 settings["NOCOLOR"] = "true" settings.backup_changes("NOCOLOR") elif not sys.stdout.isatty() and settings.get("NOCOLOR") != "no": portage.output.havecolor = 0 settings["NOCOLOR"] = "true" settings.backup_changes("NOCOLOR") def emerge_main(): global portage # NFC why this is necessary now - genone # Disable color until we're sure that it should be enabled (after # EMERGE_DEFAULT_OPTS has been parsed). portage.output.havecolor = 0 # This first pass is just for options that need to be known as early as # possible, such as --config-root. They will be parsed again later, # together with EMERGE_DEFAULT_OPTS (which may vary depending on the # the value of --config-root). myaction, myopts, myfiles = parse_opts(sys.argv[1:], silent=True) if "--debug" in myopts: os.environ["PORTAGE_DEBUG"] = "1" if "--config-root" in myopts: os.environ["PORTAGE_CONFIGROOT"] = myopts["--config-root"] # Portage needs to ensure a sane umask for the files it creates. os.umask(022) settings, trees, mtimedb = load_emerge_config() portdb = trees[settings["ROOT"]]["porttree"].dbapi try: os.nice(int(settings.get("PORTAGE_NICENESS", "0"))) except (OSError, ValueError), e: portage.writemsg("!!! Failed to change nice value to '%s'\n" % \ settings["PORTAGE_NICENESS"]) portage.writemsg("!!! %s\n" % str(e)) del e if portage._global_updates(trees, mtimedb["updates"]): mtimedb.commit() # Reload the whole config from scratch. settings, trees, mtimedb = load_emerge_config(trees=trees) portdb = trees[settings["ROOT"]]["porttree"].dbapi xterm_titles = "notitles" not in settings.features tmpcmdline = [] if "--ignore-default-opts" not in myopts: tmpcmdline.extend(settings["EMERGE_DEFAULT_OPTS"].split()) tmpcmdline.extend(sys.argv[1:]) myaction, myopts, myfiles = parse_opts(tmpcmdline) if "--digest" in myopts: os.environ["FEATURES"] = os.environ.get("FEATURES","") + " digest" # Reload the whole config from scratch so that the portdbapi internal # config is updated with new FEATURES. settings, trees, mtimedb = load_emerge_config(trees=trees) portdb = trees[settings["ROOT"]]["porttree"].dbapi for myroot in trees: mysettings = trees[myroot]["vartree"].settings mysettings.unlock() adjust_config(myopts, mysettings) mysettings.lock() del myroot, mysettings spinner = stdout_spinner() if "candy" in settings.features: spinner.update = spinner.update_scroll if "--quiet" not in myopts: portage.deprecated_profile_check() eclasses_overridden = {} for mytrees in trees.itervalues(): mydb = mytrees["porttree"].dbapi # Freeze the portdbapi for performance (memoize all xmatch results). mydb.freeze() eclasses_overridden.update(mydb.eclassdb._master_eclasses_overridden) del mytrees, mydb if eclasses_overridden and \ settings.get("PORTAGE_ECLASS_WARNING_ENABLE") != "0": prefix = bad(" * ") if len(eclasses_overridden) == 1: writemsg(prefix + "Overlay eclass overrides " + \ "eclass from PORTDIR:\n", noiselevel=-1) else: writemsg(prefix + "Overlay eclasses override " + \ "eclasses from PORTDIR:\n", noiselevel=-1) writemsg(prefix + "\n", noiselevel=-1) for eclass_name in sorted(eclasses_overridden): writemsg(prefix + " '%s/%s.eclass'\n" % \ (eclasses_overridden[eclass_name], eclass_name), noiselevel=-1) writemsg(prefix + "\n", noiselevel=-1) msg = "It is best to avoid overridding eclasses from PORTDIR " + \ "because it will trigger invalidation of cached ebuild metadata " + \ "that is distributed with the portage tree. If you must " + \ "override eclasses from PORTDIR then you are advised to run " + \ "`emerge --regen` after each time that you run `emerge --sync`. " + \ "Set PORTAGE_ECLASS_WARNING_ENABLE=\"0\" in /etc/make.conf if " + \ "you would like to disable this warning." from textwrap import wrap for line in wrap(msg, 72): writemsg("%s%s\n" % (prefix, line), noiselevel=-1) if "moo" in myfiles: print """ Larry loves Gentoo (""" + os.uname()[0] + """) _______________________ < Have you mooed today? > ----------------------- \ ^__^ \ (oo)\_______ (__)\ )\/\ ||----w | || || """ for x in myfiles: ext = os.path.splitext(x)[1] if (ext == ".ebuild" or ext == ".tbz2") and os.path.exists(os.path.abspath(x)): print colorize("BAD", "\n*** emerging by path is broken and may not always work!!!\n") break # only expand sets for actions taking package arguments oldargs = myfiles[:] if myaction in ("clean", "config", "depclean", "info", "prune", "unmerge", None): root_config = trees[settings["ROOT"]]["root_config"] setconfig = root_config.setconfig # display errors that occured while loading the SetConfig instance for e in setconfig.errors: print colorize("BAD", "Error during set creation: %s" % e) sets = setconfig.getSets() # emerge relies on the existance of sets with names "world" and "system" required_sets = ("world", "system") for s in required_sets: if s not in sets: msg = ["emerge: incomplete set configuration, " + \ "no \"%s\" set defined" % s] msg.append(" sets defined: %s" % ", ".join(sets)) for line in msg: sys.stderr.write(line + "\n") return 1 unmerge_actions = ("unmerge", "prune", "clean", "depclean") # In order to know exactly which atoms/sets should be added to the # world file, the depgraph performs set expansion later. It will get # confused about where the atoms came from if it's not allowed to # expand them itself. do_not_expand = (None, ) newargs = [] for a in myfiles: if a in ("system", "world"): newargs.append(SETPREFIX+a) else: newargs.append(a) myfiles = newargs del newargs newargs = [] for a in myfiles: if a.startswith(SETPREFIX): s = a[len(SETPREFIX):] if s not in sets: print "emerge: there are no sets to satisfy %s." % \ colorize("INFORM", s) return 1 setconfig.active.append(s) if myaction in unmerge_actions and \ not sets[s].supportsOperation("unmerge"): sys.stderr.write("emerge: the given set %s does " + \ "not support unmerge operations\n" % s) return 1 if not setconfig.getSetAtoms(s): print "emerge: '%s' is an empty set" % s elif myaction not in do_not_expand: newargs.extend(setconfig.getSetAtoms(s)) else: newargs.append(SETPREFIX+s) for e in sets[s].errors: print e else: newargs.append(a) myfiles = newargs del newargs # Need to handle empty sets specially, otherwise emerge will react # with the help message for empty argument lists if oldargs and not myfiles: print "emerge: no targets left after set expansion" return 0 if ("--tree" in myopts) and ("--columns" in myopts): print "emerge: can't specify both of \"--tree\" and \"--columns\"." return 1 if ("--quiet" in myopts): spinner.update = spinner.update_quiet portage.util.noiselimit = -1 # Always create packages if FEATURES=buildpkg # Imply --buildpkg if --buildpkgonly if ("buildpkg" in settings.features) or ("--buildpkgonly" in myopts): if "--buildpkg" not in myopts: myopts["--buildpkg"] = True # Also allow -S to invoke search action (-sS) if ("--searchdesc" in myopts): if myaction and myaction != "search": myfiles.append(myaction) if "--search" not in myopts: myopts["--search"] = True myaction = "search" # Always try and fetch binary packages if FEATURES=getbinpkg if ("getbinpkg" in settings.features): myopts["--getbinpkg"] = True if "--buildpkgonly" in myopts: # --buildpkgonly will not merge anything, so # it cancels all binary package options. for opt in ("--getbinpkg", "--getbinpkgonly", "--usepkg", "--usepkgonly"): myopts.pop(opt, None) if "--skipfirst" in myopts and "--resume" not in myopts: myopts["--resume"] = True if ("--getbinpkgonly" in myopts) and not ("--usepkgonly" in myopts): myopts["--usepkgonly"] = True if ("--getbinpkgonly" in myopts) and not ("--getbinpkg" in myopts): myopts["--getbinpkg"] = True if ("--getbinpkg" in myopts) and not ("--usepkg" in myopts): myopts["--usepkg"] = True # Also allow -K to apply --usepkg/-k if ("--usepkgonly" in myopts) and not ("--usepkg" in myopts): myopts["--usepkg"] = True # Allow -p to remove --ask if ("--pretend" in myopts) and ("--ask" in myopts): print ">>> --pretend disables --ask... removing --ask from options." del myopts["--ask"] # forbid --ask when not in a terminal # note: this breaks `emerge --ask | tee logfile`, but that doesn't work anyway. if ("--ask" in myopts) and (not sys.stdin.isatty()): portage.writemsg("!!! \"--ask\" should only be used in a terminal. Exiting.\n", noiselevel=-1) return 1 if settings.get("PORTAGE_DEBUG", "") == "1": spinner.update = spinner.update_quiet portage.debug=1 if "python-trace" in settings.features: import portage.debug portage.debug.set_trace(True) if ("--resume" in myopts): if "--tree" in myopts: print "* --tree is currently broken with --resume. Disabling..." del myopts["--tree"] if not ("--quiet" in myopts): if not sys.stdout.isatty() or ("--nospinner" in myopts): spinner.update = spinner.update_basic if "--version" in myopts: print getportageversion(settings["PORTDIR"], settings["ROOT"], settings.profile_path, settings["CHOST"], trees[settings["ROOT"]]["vartree"].dbapi) return 0 elif "--help" in myopts: _emerge.help.help(myaction, myopts, portage.output.havecolor) return 0 if "--debug" in myopts: print "myaction", myaction print "myopts", myopts if not myaction and not myfiles and "--resume" not in myopts: _emerge.help.help(myaction, myopts, portage.output.havecolor) return 1 pretend = "--pretend" in myopts fetchonly = "--fetchonly" in myopts or "--fetch-all-uri" in myopts buildpkgonly = "--buildpkgonly" in myopts # check if root user is the current user for the actions where emerge needs this if portage.secpass < 2: # We've already allowed "--version" and "--help" above. if "--pretend" not in myopts and myaction not in ("search","info"): need_superuser = not \ (fetchonly or \ (buildpkgonly and secpass >= 1) or \ myaction in ("metadata", "regen") or \ (myaction == "sync" and os.access(settings["PORTDIR"], os.W_OK))) if portage.secpass < 1 or \ need_superuser: if need_superuser: access_desc = "superuser" else: access_desc = "portage group" # Always show portage_group_warning() when only portage group # access is required but the user is not in the portage group. from portage.data import portage_group_warning if "--ask" in myopts: myopts["--pretend"] = True del myopts["--ask"] print ("%s access is required... " + \ "adding --pretend to options.\n") % access_desc if portage.secpass < 1 and not need_superuser: portage_group_warning() else: sys.stderr.write(("emerge: %s access is " + \ "required.\n\n") % access_desc) if portage.secpass < 1 and not need_superuser: portage_group_warning() return 1 disable_emergelog = False for x in ("--pretend", "--fetchonly", "--fetch-all-uri"): if x in myopts: disable_emergelog = True break if myaction in ("search", "info"): disable_emergelog = True if disable_emergelog: """ Disable emergelog for everything except build or unmerge operations. This helps minimize parallel emerge.log entries that can confuse log parsers. We especially want it disabled during parallel-fetch, which uses --resume --fetchonly.""" global emergelog def emergelog(*pargs, **kargs): pass if not "--pretend" in myopts: emergelog(xterm_titles, "Started emerge on: "+\ time.strftime("%b %d, %Y %H:%M:%S", time.localtime())) myelogstr="" if myopts: myelogstr=" ".join(myopts) if myaction: myelogstr+=" "+myaction if myfiles: myelogstr += " " + " ".join(oldargs) emergelog(xterm_titles, " *** emerge " + myelogstr) del oldargs def emergeexitsig(signum, frame): signal.signal(signal.SIGINT, signal.SIG_IGN) signal.signal(signal.SIGTERM, signal.SIG_IGN) portage.util.writemsg("\n\nExiting on signal %(signal)s\n" % {"signal":signum}) sys.exit(100+signum) signal.signal(signal.SIGINT, emergeexitsig) signal.signal(signal.SIGTERM, emergeexitsig) def emergeexit(): """This gets out final log message in before we quit.""" if "--pretend" not in myopts: emergelog(xterm_titles, " *** terminating.") if "notitles" not in settings.features: xtermTitleReset() portage.atexit_register(emergeexit) if myaction in ("config", "metadata", "regen", "sync"): if "--pretend" in myopts: sys.stderr.write(("emerge: The '%s' action does " + \ "not support '--pretend'.\n") % myaction) return 1 if "sync" == myaction: action_sync(settings, trees, mtimedb, myopts, myaction) elif "metadata" == myaction: action_metadata(settings, portdb, myopts) elif myaction=="regen": validate_ebuild_environment(trees) action_regen(settings, portdb) # HELP action elif "config"==myaction: validate_ebuild_environment(trees) action_config(settings, trees, myopts, myfiles) # INFO action elif "info"==myaction: action_info(settings, trees, myopts, myfiles) # SEARCH action elif "search"==myaction: validate_ebuild_environment(trees) action_search(trees[settings["ROOT"]]["root_config"], myopts, myfiles, spinner) elif myaction in ("clean", "unmerge") or \ (myaction == "prune" and "--nodeps" in myopts): validate_ebuild_environment(trees) root_config = trees[settings["ROOT"]]["root_config"] # When given a list of atoms, unmerge # them in the order given. ordered = myaction == "unmerge" if 1 == unmerge(root_config, myopts, myaction, myfiles, mtimedb["ldpath"], ordered=ordered): if not (buildpkgonly or fetchonly or pretend): post_emerge(trees, mtimedb, os.EX_OK) elif myaction in ("depclean", "prune"): validate_ebuild_environment(trees) action_depclean(settings, trees, mtimedb["ldpath"], myopts, myaction, myfiles, spinner) if not (buildpkgonly or fetchonly or pretend): post_emerge(trees, mtimedb, os.EX_OK) # "update", "system", or just process files: else: validate_ebuild_environment(trees) if "--pretend" not in myopts: display_news_notification(trees) retval = action_build(settings, trees, mtimedb, myopts, myaction, myfiles, spinner) # if --pretend was not enabled then display_news_notification # was already called by post_emerge if "--pretend" in myopts: display_news_notification(trees) return retval