# Copyright 1998-2010 Gentoo Foundation # Distributed under the terms of the GNU General Public License v2 __all__ = [ "close_portdbapi_caches", "FetchlistDict", "portagetree", "portdbapi" ] import portage portage.proxy.lazyimport.lazyimport(globals(), 'portage.checksum', 'portage.data:portage_gid,secpass', 'portage.dbapi.dep_expand:dep_expand', 'portage.dep:Atom,dep_getkey,match_from_list,use_reduce', 'portage.package.ebuild.doebuild:doebuild', 'portage.util:ensure_dirs,shlex_split,writemsg,writemsg_level', 'portage.util.listdir:listdir', 'portage.versions:best,catpkgsplit,_pkgsplit@pkgsplit,ver_regexp', ) from portage.cache.cache_errors import CacheError from portage.cache.mappings import Mapping from portage.dbapi import dbapi from portage.exception import PortageException, \ FileNotFound, InvalidDependString, InvalidPackageName from portage.localization import _ from portage.manifest import Manifest from portage import eclass_cache, auxdbkeys, \ eapi_is_supported, dep_check, \ _eapi_is_deprecated from portage import os from portage import _encodings from portage import _unicode_encode from portage import OrderedDict from _emerge.EbuildMetadataPhase import EbuildMetadataPhase from _emerge.PollScheduler import PollScheduler import os as _os import codecs import logging import stat import sys import warnings if sys.hexversion >= 0x3000000: basestring = str long = int class _repo_info(object): __slots__ = ('name', 'path', 'eclass_db', 'portdir', 'portdir_overlay') def __init__(self, name, path, eclass_db): self.name = name self.path = path self.eclass_db = eclass_db self.portdir = eclass_db.porttrees[0] self.portdir_overlay = ' '.join(eclass_db.porttrees[1:]) class portdbapi(dbapi): """this tree will scan a portage directory located at root (passed to init)""" portdbapi_instances = [] _use_mutable = True @property def _categories(self): return self.settings.categories @property def porttree_root(self): return self.settings.repositories.mainRepoLocation() def __init__(self, _unused_param=None, mysettings=None): """ @param _unused_param: deprecated, use mysettings['PORTDIR'] instead @type _unused_param: None @param mysettings: an immutable config instance @type mysettings: portage.config """ portdbapi.portdbapi_instances.append(self) from portage import config if mysettings: self.settings = mysettings else: from portage import settings self.settings = config(clone=settings) if _unused_param is not None: warnings.warn("The first parameter of the " + \ "portage.dbapi.porttree.portdbapi" + \ " constructor is unused since portage-2.1.8. " + \ "mysettings['PORTDIR'] is used instead.", DeprecationWarning, stacklevel=2) self.repositories = self.settings.repositories self.treemap = self.repositories.treemap # This is strictly for use in aux_get() doebuild calls when metadata # is generated by the depend phase. It's safest to use a clone for # this purpose because doebuild makes many changes to the config # instance that is passed in. self.doebuild_settings = config(clone=self.settings) self.depcachedir = os.path.realpath(self.settings.depcachedir) if os.environ.get("SANDBOX_ON") == "1": # Make api consumers exempt from sandbox violations # when doing metadata cache updates. sandbox_write = os.environ.get("SANDBOX_WRITE", "").split(":") if self.depcachedir not in sandbox_write: sandbox_write.append(self.depcachedir) os.environ["SANDBOX_WRITE"] = \ ":".join(filter(None, sandbox_write)) self.porttrees = list(self.settings.repositories.repoLocationList()) self.eclassdb = eclass_cache.cache(self.settings.repositories.mainRepoLocation()) # This is used as sanity check for aux_get(). If there is no # root eclass dir, we assume that PORTDIR is invalid or # missing. This check allows aux_get() to detect a missing # portage tree and return early by raising a KeyError. self._have_root_eclass_dir = os.path.isdir( os.path.join(self.settings.repositories.mainRepoLocation(), "eclass")) self.metadbmodule = self.settings.load_best_module("portdbapi.metadbmodule") #if the portdbapi is "frozen", then we assume that we can cache everything (that no updates to it are happening) self.xcache = {} self.frozen = 0 #Create eclass dbs self._repo_info = {} eclass_dbs = {self.settings.repositories.mainRepoLocation() : self.eclassdb} for repo in self.repositories: if repo.location in self._repo_info: continue eclass_db = None for eclass_location in repo.eclass_locations: tree_db = eclass_dbs.get(eclass_location) if tree_db is None: tree_db = eclass_cache.cache(eclass_location) eclass_dbs[eclass_location] = tree_db if eclass_db is None: eclass_db = tree_db.copy() else: eclass_db.append(tree_db) self._repo_info[repo.location] = _repo_info(repo.name, repo.location, eclass_db) #Keep a list of repo names, sorted by priority (highest priority first). self._ordered_repo_name_list = tuple(reversed(self.repositories.prepos_order)) self.auxdbmodule = self.settings.load_best_module("portdbapi.auxdbmodule") self.auxdb = {} self._pregen_auxdb = {} self._init_cache_dirs() depcachedir_w_ok = os.access(self.depcachedir, os.W_OK) cache_kwargs = { 'gid' : portage_gid, 'perms' : 0o664 } if secpass < 1: # portage_gid is irrelevant, so just obey umask cache_kwargs['gid'] = -1 cache_kwargs['perms'] = -1 # XXX: REMOVE THIS ONCE UNUSED_0 IS YANKED FROM auxdbkeys # ~harring filtered_auxdbkeys = [x for x in auxdbkeys if not x.startswith("UNUSED_0")] filtered_auxdbkeys.sort() from portage.cache import metadata_overlay, volatile if not depcachedir_w_ok: for x in self.porttrees: db_ro = self.auxdbmodule(self.depcachedir, x, filtered_auxdbkeys, gid=portage_gid, readonly=True) self.auxdb[x] = metadata_overlay.database( self.depcachedir, x, filtered_auxdbkeys, gid=portage_gid, db_rw=volatile.database, db_ro=db_ro) else: for x in self.porttrees: if x in self.auxdb: continue # location, label, auxdbkeys self.auxdb[x] = self.auxdbmodule( self.depcachedir, x, filtered_auxdbkeys, **cache_kwargs) if self.auxdbmodule is metadata_overlay.database: self.auxdb[x].db_ro.ec = self._repo_info[x].eclass_db if "metadata-transfer" not in self.settings.features: for x in self.porttrees: if x in self._pregen_auxdb: continue if os.path.isdir(os.path.join(x, "metadata", "cache")): self._pregen_auxdb[x] = self.metadbmodule( x, "metadata/cache", filtered_auxdbkeys, readonly=True) try: self._pregen_auxdb[x].ec = self._repo_info[x].eclass_db except AttributeError: pass # Selectively cache metadata in order to optimize dep matching. self._aux_cache_keys = set( ["DEPEND", "EAPI", "INHERITED", "IUSE", "KEYWORDS", "LICENSE", "PDEPEND", "PROPERTIES", "PROVIDE", "RDEPEND", "repository", "RESTRICT", "SLOT", "DEFINED_PHASES", "REQUIRED_USE"]) self._aux_cache = {} self._broken_ebuilds = set() def _init_cache_dirs(self): """Create /var/cache/edb/dep and adjust permissions for the portage group.""" dirmode = 0o2070 filemode = 0o60 modemask = 0o2 try: ensure_dirs(self.depcachedir, gid=portage_gid, mode=dirmode, mask=modemask) except PortageException as e: pass def close_caches(self): if not hasattr(self, "auxdb"): # unhandled exception thrown from constructor return for x in self.auxdb: self.auxdb[x].sync() self.auxdb.clear() def flush_cache(self): for x in self.auxdb.values(): x.sync() def findLicensePath(self, license_name): for x in reversed(self.porttrees): license_path = os.path.join(x, "licenses", license_name) if os.access(license_path, os.R_OK): return license_path return None def findname(self,mycpv, mytree = None, myrepo = None): return self.findname2(mycpv, mytree, myrepo)[0] def getRepositoryPath(self, repository_id): """ This function is required for GLEP 42 compliance; given a valid repository ID it must return a path to the repository TreeMap = { id:path } """ return self.treemap.get(repository_id) def getRepositoryName(self, canonical_repo_path): """ This is the inverse of getRepositoryPath(). @param canonical_repo_path: the canonical path of a repository, as resolved by os.path.realpath() @type canonical_repo_path: String @returns: The repo_name for the corresponding repository, or None if the path does not correspond a known repository @rtype: String or None """ try: return self.repositories.get_name_for_location(canonical_repo_path) except KeyError: return None def getRepositories(self): """ This function is required for GLEP 42 compliance; it will return a list of repository IDs TreeMap = {id: path} """ return self._ordered_repo_name_list def getMissingRepoNames(self): """ Returns a list of repository paths that lack profiles/repo_name. """ return self.settings.repositories.missing_repo_names def getIgnoredRepos(self): """ Returns a list of repository paths that have been ignored, because another repo with the same name exists. """ return self.settings.repositories.ignored_repos def findname2(self, mycpv, mytree=None, myrepo = None): """ Returns the location of the CPV, and what overlay it was in. Searches overlays first, then PORTDIR; this allows us to return the first matching file. As opposed to starting in portdir and then doing overlays second, we would have to exhaustively search the overlays until we found the file we wanted. If myrepo is not None it will find packages from this repository(overlay) """ if not mycpv: return (None, 0) if myrepo is not None: mytree = self.treemap.get(myrepo) if mytree is None: return (None, 0) mysplit = mycpv.split("/") psplit = pkgsplit(mysplit[1]) if psplit is None or len(mysplit) != 2: raise InvalidPackageName(mycpv) # For optimal performace in this hot spot, we do manual unicode # handling here instead of using the wrapped os module. encoding = _encodings['fs'] errors = 'strict' if mytree: mytrees = [mytree] else: mytrees = reversed(self.porttrees) relative_path = mysplit[0] + _os.sep + psplit[0] + _os.sep + \ mysplit[1] + ".ebuild" for x in mytrees: filename = x + _os.sep + relative_path if _os.access(_unicode_encode(filename, encoding=encoding, errors=errors), _os.R_OK): return (filename, x) return (None, 0) def _metadata_process(self, cpv, ebuild_path, repo_path): """ Create an EbuildMetadataPhase instance to generate metadata for the give ebuild. @rtype: EbuildMetadataPhase @returns: A new EbuildMetadataPhase instance, or None if the metadata cache is already valid. """ metadata, st, emtime = self._pull_valid_cache(cpv, ebuild_path, repo_path) if metadata is not None: return None process = EbuildMetadataPhase(cpv=cpv, ebuild_path=ebuild_path, ebuild_mtime=emtime, metadata_callback=self._metadata_callback, portdb=self, repo_path=repo_path, settings=self.doebuild_settings) return process def _metadata_callback(self, cpv, ebuild_path, repo_path, metadata, mtime): i = metadata if hasattr(metadata, "items"): i = iter(metadata.items()) metadata = dict(i) if metadata.get("INHERITED", False): metadata["_eclasses_"] = self._repo_info[repo_path ].eclass_db.get_eclass_data(metadata["INHERITED"].split()) else: metadata["_eclasses_"] = {} metadata.pop("INHERITED", None) metadata["_mtime_"] = mtime eapi = metadata.get("EAPI") if not eapi or not eapi.strip(): eapi = "0" metadata["EAPI"] = eapi if not eapi_is_supported(eapi): for k in set(metadata).difference(("_mtime_", "_eclasses_")): metadata[k] = "" metadata["EAPI"] = "-" + eapi.lstrip("-") self.auxdb[repo_path][cpv] = metadata return metadata def _pull_valid_cache(self, cpv, ebuild_path, repo_path): try: # Don't use unicode-wrapped os module, for better performance. st = _os.stat(_unicode_encode(ebuild_path, encoding=_encodings['fs'], errors='strict')) emtime = st[stat.ST_MTIME] except OSError: writemsg(_("!!! aux_get(): ebuild for " \ "'%s' does not exist at:\n") % (cpv,), noiselevel=-1) writemsg("!!! %s\n" % ebuild_path, noiselevel=-1) raise KeyError(cpv) # Pull pre-generated metadata from the metadata/cache/ # directory if it exists and is valid, otherwise fall # back to the normal writable cache. auxdbs = [] pregen_auxdb = self._pregen_auxdb.get(repo_path) if pregen_auxdb is not None: auxdbs.append(pregen_auxdb) auxdbs.append(self.auxdb[repo_path]) eclass_db = self._repo_info[repo_path].eclass_db doregen = True for auxdb in auxdbs: try: metadata = auxdb[cpv] except KeyError: pass except CacheError: if auxdb is not pregen_auxdb: try: del auxdb[cpv] except KeyError: pass except CacheError: pass else: eapi = metadata.get('EAPI', '').strip() if not eapi: eapi = '0' if not (eapi[:1] == '-' and eapi_is_supported(eapi[1:])) and \ emtime == metadata['_mtime_'] and \ eclass_db.is_eclass_data_valid(metadata['_eclasses_']): doregen = False if not doregen: break if doregen: metadata = None return (metadata, st, emtime) def aux_get(self, mycpv, mylist, mytree=None, myrepo=None): "stub code for returning auxilliary db information, such as SLOT, DEPEND, etc." 'input: "sys-apps/foo-1.0",["SLOT","DEPEND","HOMEPAGE"]' 'return: ["0",">=sys-libs/bar-1.0","http://www.foo.com"] or raise KeyError if error' cache_me = False if myrepo is not None: mytree = self.treemap.get(myrepo) if mytree is None: raise KeyError(myrepo) if not mytree: cache_me = True if not mytree and not self._known_keys.intersection( mylist).difference(self._aux_cache_keys): aux_cache = self._aux_cache.get(mycpv) if aux_cache is not None: return [aux_cache.get(x, "") for x in mylist] cache_me = True global auxdbkeys, auxdbkeylen try: cat, pkg = mycpv.split("/", 1) except ValueError: # Missing slash. Can't find ebuild so raise KeyError. raise KeyError(mycpv) myebuild, mylocation = self.findname2(mycpv, mytree) if not myebuild: writemsg("!!! aux_get(): %s\n" % \ _("ebuild not found for '%s'") % mycpv, noiselevel=1) raise KeyError(mycpv) mydata, st, emtime = self._pull_valid_cache(mycpv, myebuild, mylocation) doregen = mydata is None if doregen: if myebuild in self._broken_ebuilds: raise KeyError(mycpv) if not self._have_root_eclass_dir: raise KeyError(mycpv) self.doebuild_settings.setcpv(mycpv) eapi = None if eapi is None and \ 'parse-eapi-ebuild-head' in self.doebuild_settings.features: eapi = portage._parse_eapi_ebuild_head(codecs.open( _unicode_encode(myebuild, encoding=_encodings['fs'], errors='strict'), mode='r', encoding=_encodings['repo.content'], errors='replace')) if eapi is not None: self.doebuild_settings.configdict['pkg']['EAPI'] = eapi if eapi is not None and not portage.eapi_is_supported(eapi): mydata = self._metadata_callback( mycpv, myebuild, mylocation, {'EAPI':eapi}, emtime) else: proc = EbuildMetadataPhase(cpv=mycpv, ebuild_path=myebuild, ebuild_mtime=emtime, metadata_callback=self._metadata_callback, portdb=self, repo_path=mylocation, scheduler=PollScheduler().sched_iface, settings=self.doebuild_settings) proc.start() proc.wait() if proc.returncode != os.EX_OK: self._broken_ebuilds.add(myebuild) raise KeyError(mycpv) mydata = proc.metadata # do we have a origin repository name for the current package mydata["repository"] = self.repositories.get_name_for_location(mylocation) mydata["INHERITED"] = ' '.join(mydata.get("_eclasses_", [])) mydata["_mtime_"] = st[stat.ST_MTIME] eapi = mydata.get("EAPI") if not eapi: eapi = "0" mydata["EAPI"] = eapi if not eapi_is_supported(eapi): for k in set(mydata).difference(("_mtime_", "_eclasses_")): mydata[k] = "" mydata["EAPI"] = "-" + eapi.lstrip("-") #finally, we look at our internal cache entry and return the requested data. returnme = [mydata.get(x, "") for x in mylist] if cache_me: aux_cache = {} for x in self._aux_cache_keys: aux_cache[x] = mydata.get(x, "") self._aux_cache[mycpv] = aux_cache return returnme def getFetchMap(self, mypkg, useflags=None, mytree=None): """ Get the SRC_URI metadata as a dict which maps each file name to a set of alternative URIs. @param mypkg: cpv for an ebuild @type mypkg: String @param useflags: a collection of enabled USE flags, for evaluation of conditionals @type useflags: set, or None to enable all conditionals @param mytree: The canonical path of the tree in which the ebuild is located, or None for automatic lookup @type mypkg: String @returns: A dict which maps each file name to a set of alternative URIs. @rtype: dict """ try: eapi, myuris = self.aux_get(mypkg, ["EAPI", "SRC_URI"], mytree=mytree) except KeyError: # Convert this to an InvalidDependString exception since callers # already handle it. raise portage.exception.InvalidDependString( "getFetchMap(): aux_get() error reading "+mypkg+"; aborting.") if not eapi_is_supported(eapi): # Convert this to an InvalidDependString exception # since callers already handle it. raise portage.exception.InvalidDependString( "getFetchMap(): '%s' has unsupported EAPI: '%s'" % \ (mypkg, eapi.lstrip("-"))) return _parse_uri_map(mypkg, {'EAPI':eapi,'SRC_URI':myuris}, use=useflags) def getfetchsizes(self, mypkg, useflags=None, debug=0, myrepo=None): # returns a filename:size dictionnary of remaining downloads myebuild, mytree = self.findname2(mypkg, myrepo=myrepo) if myebuild is None: raise AssertionError(_("ebuild not found for '%s'") % mypkg) pkgdir = os.path.dirname(myebuild) mf = Manifest(pkgdir, self.settings["DISTDIR"]) checksums = mf.getDigests() if not checksums: if debug: writemsg(_("[empty/missing/bad digest]: %s\n") % (mypkg,)) return {} filesdict={} myfiles = self.getFetchMap(mypkg, useflags=useflags, mytree=mytree) #XXX: maybe this should be improved: take partial downloads # into account? check checksums? for myfile in myfiles: try: fetch_size = int(checksums[myfile]["size"]) except (KeyError, ValueError): if debug: writemsg(_("[bad digest]: missing %(file)s for %(pkg)s\n") % {"file":myfile, "pkg":mypkg}) continue file_path = os.path.join(self.settings["DISTDIR"], myfile) mystat = None try: mystat = os.stat(file_path) except OSError as e: pass if mystat is None: existing_size = 0 ro_distdirs = self.settings.get("PORTAGE_RO_DISTDIRS") if ro_distdirs is not None: for x in shlex_split(ro_distdirs): try: mystat = os.stat(os.path.join(x, myfile)) except OSError: pass else: if mystat.st_size == fetch_size: existing_size = fetch_size break else: existing_size = mystat.st_size remaining_size = fetch_size - existing_size if remaining_size > 0: # Assume the download is resumable. filesdict[myfile] = remaining_size elif remaining_size < 0: # The existing file is too large and therefore corrupt. filesdict[myfile] = int(checksums[myfile]["size"]) return filesdict def fetch_check(self, mypkg, useflags=None, mysettings=None, all=False, myrepo=None): if all: useflags = None elif useflags is None: if mysettings: useflags = mysettings["USE"].split() if myrepo is not None: mytree = self.treemap.get(myrepo) if mytree is None: return False else: mytree = None myfiles = self.getFetchMap(mypkg, useflags=useflags, mytree=mytree) myebuild = self.findname(mypkg, myrepo=myrepo) if myebuild is None: raise AssertionError(_("ebuild not found for '%s'") % mypkg) pkgdir = os.path.dirname(myebuild) mf = Manifest(pkgdir, self.settings["DISTDIR"]) mysums = mf.getDigests() failures = {} for x in myfiles: if not mysums or x not in mysums: ok = False reason = _("digest missing") else: try: ok, reason = portage.checksum.verify_all( os.path.join(self.settings["DISTDIR"], x), mysums[x]) except FileNotFound as e: ok = False reason = _("File Not Found: '%s'") % (e,) if not ok: failures[x] = reason if failures: return False return True def cpv_exists(self, mykey, myrepo=None): "Tells us whether an actual ebuild exists on disk (no masking)" cps2 = mykey.split("/") cps = catpkgsplit(mykey, silent=0) if not cps: #invalid cat/pkg-v return 0 if self.findname(cps[0] + "/" + cps2[1], myrepo=myrepo): return 1 else: return 0 def cp_all(self, categories=None, trees=None): """ This returns a list of all keys in our tree or trees @param categories: optional list of categories to search or defaults to self.settings.categories @param trees: optional list of trees to search the categories in or defaults to self.porttrees @rtype list of [cat/pkg,...] """ d = {} if categories is None: categories = self.settings.categories if trees is None: trees = self.porttrees for x in categories: for oroot in trees: for y in listdir(oroot+"/"+x, EmptyOnError=1, ignorecvs=1, dirsonly=1): try: atom = Atom("%s/%s" % (x, y)) except InvalidAtom: continue if atom != atom.cp: continue d[atom.cp] = None l = list(d) l.sort() return l def cp_list(self, mycp, use_cache=1, mytree=None): if self.frozen and mytree is None: cachelist = self.xcache["cp-list"].get(mycp) if cachelist is not None: # Try to propagate this to the match-all cache here for # repoman since he uses separate match-all caches for each # profile (due to old-style virtuals). Do not propagate # old-style virtuals since cp_list() doesn't expand them. if not (not cachelist and mycp.startswith("virtual/")): self.xcache["match-all"][mycp] = cachelist return cachelist[:] mysplit = mycp.split("/") invalid_category = mysplit[0] not in self._categories d={} if mytree is not None: if isinstance(mytree, basestring): mytrees = [mytree] else: # assume it's iterable mytrees = mytree else: mytrees = self.porttrees for oroot in mytrees: try: file_list = os.listdir(os.path.join(oroot, mycp)) except OSError: continue for x in file_list: pf = None if x[-7:] == '.ebuild': pf = x[:-7] if pf is not None: ps = pkgsplit(pf) if not ps: writemsg(_("\nInvalid ebuild name: %s\n") % \ os.path.join(oroot, mycp, x), noiselevel=-1) continue if ps[0] != mysplit[1]: writemsg(_("\nInvalid ebuild name: %s\n") % \ os.path.join(oroot, mycp, x), noiselevel=-1) continue ver_match = ver_regexp.match("-".join(ps[1:])) if ver_match is None or not ver_match.groups(): writemsg(_("\nInvalid ebuild version: %s\n") % \ os.path.join(oroot, mycp, x), noiselevel=-1) continue d[mysplit[0]+"/"+pf] = None if invalid_category and d: writemsg(_("\n!!! '%s' has a category that is not listed in " \ "%setc/portage/categories\n") % \ (mycp, self.settings["PORTAGE_CONFIGROOT"]), noiselevel=-1) mylist = [] else: mylist = list(d) # Always sort in ascending order here since it's handy # and the result can be easily cached and reused. self._cpv_sort_ascending(mylist) if self.frozen and mytree is None: cachelist = mylist[:] self.xcache["cp-list"][mycp] = cachelist # Do not propagate old-style virtuals since # cp_list() doesn't expand them. if not (not cachelist and mycp.startswith("virtual/")): self.xcache["match-all"][mycp] = cachelist return mylist def freeze(self): for x in "bestmatch-visible", "cp-list", "list-visible", "match-all", \ "match-all-cpv-only", "match-visible", "minimum-all", \ "minimum-visible": self.xcache[x]={} self.frozen=1 def melt(self): self.xcache = {} self.frozen = 0 def xmatch(self,level,origdep,mydep=None,mykey=None,mylist=None): "caching match function; very trick stuff" #if no updates are being made to the tree, we can consult our xcache... if self.frozen: try: return self.xcache[level][origdep][:] except KeyError: pass if not mydep: #this stuff only runs on first call of xmatch() #create mydep, mykey from origdep mydep = dep_expand(origdep, mydb=self, settings=self.settings) mykey = mydep.cp if level == "match-all-cpv-only": # match *all* packages, only against the cpv, in order # to bypass unnecessary cache access for things like IUSE # and SLOT. myval = None mytree = None if mydep.repo is not None: mytree = self.treemap.get(mydep.repo) if mytree is None: myval = [] if myval is None: if mydep == mykey: # Share cache with match-all/cp_list # when the result is the same. level = "match-all" myval = self.cp_list(mykey, mytree=mytree) else: myval = match_from_list(mydep, self.cp_list(mykey, mytree=mytree)) elif level == "list-visible": #a list of all visible packages, not called directly (just by xmatch()) #myval = self.visible(self.cp_list(mykey)) myval = self.gvisible(self.visible(self.cp_list(mykey))) elif level == "minimum-all": # Find the minimum matching version. This is optimized to # minimize the number of metadata accesses (improves performance # especially in cases where metadata needs to be generated). cpv_iter = iter(self.cp_list(mykey)) if mydep != mykey: cpv_iter = self._iter_match(mydep, cpv_iter) try: myval = next(cpv_iter) except StopIteration: myval = "" elif level in ("minimum-visible", "bestmatch-visible"): # Find the minimum matching visible version. This is optimized to # minimize the number of metadata accesses (improves performance # especially in cases where metadata needs to be generated). if mydep == mykey: mylist = self.cp_list(mykey) else: mylist = match_from_list(mydep, self.cp_list(mykey, mytree=self.repositories.get_location_for_name(mydep.repo))) myval = "" settings = self.settings local_config = settings.local_config aux_keys = list(self._aux_cache_keys) if level == "minimum-visible": iterfunc = iter else: iterfunc = reversed for cpv in iterfunc(mylist): try: metadata = dict(zip(aux_keys, self.aux_get(cpv, aux_keys))) except KeyError: # ebuild masked by corruption continue if not eapi_is_supported(metadata["EAPI"]): continue if mydep.slot and mydep.slot != metadata["SLOT"]: continue if settings._getMissingKeywords(cpv, metadata): continue if settings._getMaskAtom(cpv, metadata): continue if settings._getProfileMaskAtom(cpv, metadata): continue if local_config: metadata["USE"] = "" if "?" in metadata["LICENSE"] or "?" in metadata["PROPERTIES"]: self.doebuild_settings.setcpv(cpv, mydb=metadata) metadata["USE"] = self.doebuild_settings.get("USE", "") try: if settings._getMissingLicenses(cpv, metadata): continue if settings._getMissingProperties(cpv, metadata): continue except InvalidDependString: continue if mydep.use: has_iuse = False for has_iuse in self._iter_match_use(mydep, [cpv]): break if not has_iuse: continue myval = cpv break elif level == "bestmatch-list": #dep match -- find best match but restrict search to sublist #no point in calling xmatch again since we're not caching list deps myval = best(list(self._iter_match(mydep, mylist))) elif level == "match-list": #dep match -- find all matches but restrict search to sublist (used in 2nd half of visible()) myval = list(self._iter_match(mydep, mylist)) elif level == "match-visible": #dep match -- find all visible matches #get all visible packages, then get the matching ones myval = list(self._iter_match(mydep, self.xmatch("list-visible", mykey, mydep=mykey, mykey=mykey), myrepo=mydep.repo)) elif level == "match-all": #match *all* visible *and* masked packages if mydep == mykey: myval = self.cp_list(mykey) else: myval = list(self._iter_match(mydep, self.cp_list(mykey), myrepo = mydep.repo)) else: raise AssertionError( "Invalid level argument: '%s'" % level) if self.frozen and (level not in ["match-list", "bestmatch-list"]): self.xcache[level][mydep] = myval if origdep and origdep != mydep: self.xcache[level][origdep] = myval return myval[:] def match(self, mydep, use_cache=1): return self.xmatch("match-visible", mydep) def visible(self, mylist): """two functions in one. Accepts a list of cpv values and uses the package.mask *and* packages file to remove invisible entries, returning remaining items. This function assumes that all entries in mylist have the same category and package name.""" if not mylist: return [] db_keys = ["SLOT"] visible = [] getMaskAtom = self.settings._getMaskAtom getProfileMaskAtom = self.settings._getProfileMaskAtom for cpv in mylist: try: metadata = dict(zip(db_keys, self.aux_get(cpv, db_keys))) except KeyError: # masked by corruption continue if not metadata["SLOT"]: continue if getMaskAtom(cpv, metadata): continue if getProfileMaskAtom(cpv, metadata): continue visible.append(cpv) return visible def gvisible(self,mylist): "strip out group-masked (not in current group) entries" if mylist is None: return [] newlist=[] aux_keys = list(self._aux_cache_keys) metadata = {} local_config = self.settings.local_config chost = self.settings.get('CHOST', '') accept_chost = self.settings._accept_chost for mycpv in mylist: metadata.clear() try: metadata.update(zip(aux_keys, self.aux_get(mycpv, aux_keys))) except KeyError: continue except PortageException as e: writemsg("!!! Error: aux_get('%s', %s)\n" % (mycpv, aux_keys), noiselevel=-1) writemsg("!!! %s\n" % (e,), noiselevel=-1) del e continue eapi = metadata["EAPI"] if not eapi_is_supported(eapi): continue if _eapi_is_deprecated(eapi): continue if self.settings._getMissingKeywords(mycpv, metadata): continue if local_config: metadata['CHOST'] = chost if not accept_chost(mycpv, metadata): continue metadata["USE"] = "" if "?" in metadata["LICENSE"] or "?" in metadata["PROPERTIES"]: self.doebuild_settings.setcpv(mycpv, mydb=metadata) metadata['USE'] = self.doebuild_settings['PORTAGE_USE'] try: if self.settings._getMissingLicenses(mycpv, metadata): continue if self.settings._getMissingProperties(mycpv, metadata): continue except InvalidDependString: continue newlist.append(mycpv) return newlist def close_portdbapi_caches(): for i in portdbapi.portdbapi_instances: i.close_caches() portage.process.atexit_register(portage.portageexit) class portagetree(object): def __init__(self, root=None, virtual=None, settings=None): """ Constructor for a PortageTree @param root: deprecated, defaults to settings['ROOT'] @type root: String/Path @param virtual: UNUSED @type virtual: No Idea @param settings: Portage Configuration object (portage.settings) @type settings: Instance of portage.config """ if settings is None: settings = portage.settings self.settings = settings if root is not None and root != settings['ROOT']: warnings.warn("The root parameter of the " + \ "portage.dbapi.porttree.portagetree" + \ " constructor is now unused. Use " + \ "settings['ROOT'] instead.", DeprecationWarning, stacklevel=2) self.portroot = settings["PORTDIR"] self.virtual = virtual self.dbapi = portdbapi(mysettings=settings) @property def root(self): warnings.warn("The root attribute of " + \ "portage.dbapi.porttree.portagetree" + \ " is deprecated. Use " + \ "settings['ROOT'] instead.", DeprecationWarning, stacklevel=2) return self.settings['ROOT'] def dep_bestmatch(self,mydep): "compatibility method" mymatch = self.dbapi.xmatch("bestmatch-visible",mydep) if mymatch is None: return "" return mymatch def dep_match(self,mydep): "compatibility method" mymatch = self.dbapi.xmatch("match-visible",mydep) if mymatch is None: return [] return mymatch def exists_specific(self,cpv): return self.dbapi.cpv_exists(cpv) def getallnodes(self): """new behavior: these are all *unmasked* nodes. There may or may not be available masked package for nodes in this nodes list.""" return self.dbapi.cp_all() def getname(self, pkgname): "returns file location for this particular package (DEPRECATED)" if not pkgname: return "" mysplit = pkgname.split("/") psplit = pkgsplit(mysplit[1]) return "/".join([self.portroot, mysplit[0], psplit[0], mysplit[1]])+".ebuild" def depcheck(self, mycheck, use="yes", myusesplit=None): return dep_check(mycheck, self.dbapi, use=use, myuse=myusesplit) def getslot(self,mycatpkg): "Get a slot for a catpkg; assume it exists." myslot = "" try: myslot = self.dbapi.aux_get(mycatpkg, ["SLOT"])[0] except SystemExit as e: raise except Exception as e: pass return myslot class FetchlistDict(Mapping): """ This provide a mapping interface to retrieve fetch lists. It's used to allow portage.manifest.Manifest to access fetch lists via a standard mapping interface rather than use the dbapi directly. """ def __init__(self, pkgdir, settings, mydbapi): """pkgdir is a directory containing ebuilds and settings is passed into portdbapi.getfetchlist for __getitem__ calls.""" self.pkgdir = pkgdir self.cp = os.sep.join(pkgdir.split(os.sep)[-2:]) self.settings = settings self.mytree = os.path.realpath(os.path.dirname(os.path.dirname(pkgdir))) self.portdb = mydbapi def __getitem__(self, pkg_key): """Returns the complete fetch list for a given package.""" return list(self.portdb.getFetchMap(pkg_key, mytree=self.mytree)) def __contains__(self, cpv): return cpv in self.__iter__() def has_key(self, pkg_key): """Returns true if the given package exists within pkgdir.""" warnings.warn("portage.dbapi.porttree.FetchlistDict.has_key() is " "deprecated, use the 'in' operator instead", DeprecationWarning, stacklevel=2) return pkg_key in self def __iter__(self): return iter(self.portdb.cp_list(self.cp, mytree=self.mytree)) def __len__(self): """This needs to be implemented in order to avoid infinite recursion in some cases.""" return len(self.portdb.cp_list(self.cp, mytree=self.mytree)) def keys(self): """Returns keys for all packages within pkgdir""" return self.portdb.cp_list(self.cp, mytree=self.mytree) if sys.hexversion >= 0x3000000: keys = __iter__ def _parse_uri_map(cpv, metadata, use=None): myuris = use_reduce(metadata.get('SRC_URI', ''), uselist=use, matchall=(use is None), is_src_uri=True, eapi=metadata['EAPI']) uri_map = OrderedDict() myuris.reverse() while myuris: uri = myuris.pop() if myuris and myuris[-1] == "->": operator = myuris.pop() distfile = myuris.pop() else: distfile = os.path.basename(uri) if not distfile: raise portage.exception.InvalidDependString( ("getFetchMap(): '%s' SRC_URI has no file " + \ "name: '%s'") % (cpv, uri)) uri_set = uri_map.get(distfile) if uri_set is None: uri_set = set() uri_map[distfile] = uri_set uri_set.add(uri) uri = None operator = None return uri_map