# Copyright (c) 2005-2009 Canonical # # Author: Michael Vogt # # This program is free software; you can redistribute it and/or # modify it under the terms of the GNU General Public License as # published by the Free Software Foundation; either version 2 of the # License, or (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 # USA """Classes for working with locally available Debian packages.""" import os import sys import apt_inst import apt_pkg from apt_pkg import gettext as _ # Constants for comparing the local package file with the version in the cache (VERSION_NONE, VERSION_OUTDATED, VERSION_SAME, VERSION_NEWER) = range(4) class NoDebArchiveException(IOError): """Exception which is raised if a file is no Debian archive.""" class DebPackage(object): """A Debian Package (.deb file).""" _supported_data_members = ("data.tar.gz", "data.tar.bz2", "data.tar.lzma") debug = 0 def __init__(self, filename=None, cache=None): self._cache = cache self._need_pkgs = [] self._debfile = None self.pkgname = "" self.filename = filename self._sections = {} self._installed_conflicts = set() self._failure_string = "" if filename: self.open(filename) def open(self, filename): " open given debfile " self.filename = filename self._debfile = apt_inst.DebFile(self.filename) control = self._debfile.control.extractdata("control") self._sections = apt_pkg.TagSection(control) self.pkgname = self._sections["Package"] def __getitem__(self, key): return self._sections[key] @property def filelist(self): """return the list of files in the deb.""" files = [] try: self._debfile.data.go(lambda item, data: files.append(item.name)) except SystemError: return [_("List of files for '%s' could not be read" % self.filename)] return files def _is_or_group_satisfied(self, or_group): """Return True if at least one dependency of the or-group is satisfied. This method gets an 'or_group' and analyzes if at least one dependency of this group is already satisfied. """ self._dbg(2, "_checkOrGroup(): %s " % (or_group)) for dep in or_group: depname = dep[0] ver = dep[1] oper = dep[2] # check for virtual pkgs if not depname in self._cache: if self._cache.is_virtual_package(depname): self._dbg(3, "_isOrGroupSatisfied(): %s is virtual dep" % depname) for pkg in self._cache.get_providing_packages(depname): if pkg.is_installed: return True continue inst = self._cache[depname].installed if inst is not None and apt_pkg.check_dep(inst.version, oper, ver): return True return False def _satisfy_or_group(self, or_group): """Try to satisfy the or_group.""" for dep in or_group: depname, ver, oper = dep # if we don't have it in the cache, it may be virtual if not depname in self._cache: if not self._cache.is_virtual_package(depname): continue providers = self._cache.get_providing_packages(depname) # if a package just has a single virtual provider, we # just pick that (just like apt) if len(providers) != 1: continue depname = providers[0].name # now check if we can satisfy the deps with the candidate(s) # in the cache pkg = self._cache[depname] cand = self._cache._depcache.get_candidate_ver(pkg._pkg) if not cand: continue if not apt_pkg.check_dep(cand.ver_str, oper, ver): continue # check if we need to install it self._dbg(2, "Need to get: %s" % depname) self._need_pkgs.append(depname) return True # if we reach this point, we failed or_str = "" for dep in or_group: or_str += dep[0] if dep != or_group[-1]: or_str += "|" self._failure_string += _("Dependency is not satisfiable: %s\n" % or_str) return False def _check_single_pkg_conflict(self, pkgname, ver, oper): """Return True if a pkg conflicts with a real installed/marked pkg.""" # FIXME: deal with conflicts against its own provides # (e.g. Provides: ftp-server, Conflicts: ftp-server) self._dbg(3, "_checkSinglePkgConflict() pkg='%s' ver='%s' oper='%s'" % (pkgname, ver, oper)) pkg = self._cache[pkgname] if pkg.is_installed: pkgver = pkg.installed.version elif pkg.marked_install: pkgver = pkg.candidate.version else: return False #print "pkg: %s" % pkgname #print "ver: %s" % ver #print "pkgver: %s " % pkgver #print "oper: %s " % oper if (apt_pkg.check_dep(pkgver, oper, ver) and not self.replaces_real_pkg(pkgname, oper, ver)): self._failure_string += _("Conflicts with the installed package " "'%s'" % pkg.name) return True return False def _check_conflicts_or_group(self, or_group): """Check the or-group for conflicts with installed pkgs.""" self._dbg(2, "_check_conflicts_or_group(): %s " % (or_group)) for dep in or_group: depname = dep[0] ver = dep[1] oper = dep[2] # check conflicts with virtual pkgs if not depname in self._cache: # FIXME: we have to check for virtual replaces here as # well (to pass tests/gdebi-test8.deb) if self._cache.is_virtual_package(depname): for pkg in self._cache.get_providing_packages(depname): self._dbg(3, "conflicts virtual check: %s" % pkg.name) # P/C/R on virtal pkg, e.g. ftpd if self.pkgname == pkg.name: self._dbg(3, "conflict on self, ignoring") continue if self._check_single_pkg_conflict(pkg.name, ver, oper): self._installed_conflicts.add(pkg.name) continue if self._check_single_pkg_conflict(depname, ver, oper): self._installed_conflicts.add(depname) return bool(self._installed_conflicts) @property def conflicts(self): """List of package names conflicting with this package.""" key = "Conflicts" try: return apt_pkg.parse_depends(self._sections[key]) except KeyError: return [] @property def depends(self): """List of package names on which this package depends on.""" depends = [] # find depends for key in "Depends", "PreDepends": try: depends.extend(apt_pkg.parse_depends(self._sections[key])) except KeyError: pass return depends @property def provides(self): """List of virtual packages which are provided by this package.""" key = "Provides" try: return apt_pkg.parse_depends(self._sections[key]) except KeyError: return [] @property def replaces(self): """List of packages which are replaced by this package.""" key = "Replaces" try: return apt_pkg.parse_depends(self._sections[key]) except KeyError: return [] def replaces_real_pkg(self, pkgname, oper, ver): """Return True if a given non-virtual package is replaced. Return True if the deb packages replaces a real (not virtual) packages named (pkgname, oper, ver). """ self._dbg(3, "replacesPkg() %s %s %s" % (pkgname, oper, ver)) pkg = self._cache[pkgname] if pkg.is_installed: pkgver = pkg.installed.version elif pkg.marked_install: pkgver = pkg.candidate.version else: pkgver = None for or_group in self.replaces: for (name, ver, oper) in or_group: if (name == pkgname and apt_pkg.check_dep(pkgver, oper, ver)): self._dbg(3, "we have a replaces in our package for the " "conflict against '%s'" % (pkgname)) return True return False def check_conflicts(self): """Check if there are conflicts with existing or selected packages. Check if the package conflicts with a existing or to be installed package. Return True if the pkg is OK. """ res = True for or_group in self.conflicts: if self._check_conflicts_or_group(or_group): #print "Conflicts with a exisiting pkg!" #self._failure_string = "Conflicts with a exisiting pkg!" res = False return res def compare_to_version_in_cache(self, use_installed=True): """Compare the package to the version available in the cache. Checks if the package is already installed or availabe in the cache and if so in what version, returns one of (VERSION_NONE, VERSION_OUTDATED, VERSION_SAME, VERSION_NEWER). """ self._dbg(3, "compareToVersionInCache") pkgname = self._sections["Package"] debver = self._sections["Version"] self._dbg(1, "debver: %s" % debver) if pkgname in self._cache: if use_installed and self._cache[pkgname].installed: cachever = self._cache[pkgname].installed.version else: cachever = self._cache[pkgname].candidate.version if cachever is not None: cmpres = apt_pkg.version_compare(cachever, debver) self._dbg(1, "CompareVersion(debver,instver): %s" % cmpres) if cmpres == 0: return VERSION_SAME elif cmpres < 0: return VERSION_NEWER elif cmpres > 0: return VERSION_OUTDATED return VERSION_NONE def check(self): """Check if the package is installable.""" self._dbg(3, "check_depends") # check arch arch = self._sections["Architecture"] if arch != "all" and arch != apt_pkg.config.find("APT::Architecture"): self._dbg(1, "ERROR: Wrong architecture dude!") self._failure_string = _("Wrong architecture '%s'" % arch) return False # check version if self.compare_to_version_in_cache() == VERSION_OUTDATED: # the deb is older than the installed self._failure_string = _("A later version is already installed") return False # FIXME: this sort of error handling sux self._failure_string = "" # check conflicts if not self.check_conflicts(): return False # try to satisfy the dependencies if not self._satisfy_depends(self.depends): return False # check for conflicts again (this time with the packages that are # makeed for install) if not self.check_conflicts(): return False if self._cache._depcache.broken_count > 0: self._failure_string = _("Failed to satisfy all dependencies " "(broken cache)") # clean the cache again self._cache.clear() return False return True def satisfy_depends_str(self, dependsstr): """Satisfy the dependencies in the given string.""" return self._satisfy_depends(apt_pkg.parse_depends(dependsstr)) def _satisfy_depends(self, depends): """Satisfy the dependencies.""" # turn off MarkAndSweep via a action group (if available) try: _actiongroup = apt_pkg.ActionGroup(self._cache._depcache) except AttributeError: pass # check depends for or_group in depends: #print "or_group: %s" % or_group #print "or_group satified: %s" % self._is_or_group_satisfied( # or_group) if not self._is_or_group_satisfied(or_group): if not self._satisfy_or_group(or_group): return False # now try it out in the cache for pkg in self._need_pkgs: try: self._cache[pkg].mark_install(fromUser=False) except SystemError: self._failure_string = _("Cannot install '%s'" % pkg) self._cache.clear() return False return True @property def missing_deps(self): """Return missing dependencies.""" self._dbg(1, "Installing: %s" % self._need_pkgs) if self._need_pkgs is None: self.check() return self._need_pkgs @property def required_changes(self): """Get the changes required to satisfy the dependencies. Returns: a tuple with (install, remove, unauthenticated) """ install = [] remove = [] unauthenticated = [] for pkg in self._cache: if pkg.marked_install or pkg.marked_upgrade: install.append(pkg.name) # check authentication, one authenticated origin is enough # libapt will skip non-authenticated origins then authenticated = False for origin in pkg.candidate.origins: authenticated |= origin.trusted if not authenticated: unauthenticated.append(pkg.name) if pkg.marked_delete: remove.append(pkg.name) return (install, remove, unauthenticated) def _dbg(self, level, msg): """Write debugging output to sys.stderr.""" if level <= self.debug: print >> sys.stderr, msg def install(self, install_progress=None): """Install the package.""" if install_progress is None: return os.spawnlp(os.P_WAIT, "dpkg", "dpkg", "-i", self.filename) else: try: install_progress.start_update() except AttributeError: install_progress.startUpdate() res = install_progress.run(self.filename) try: install_progress.finish_update() except AttributeError: install_progress.finishUpdate() return res class DscSrcPackage(DebPackage): """A locally available source package.""" def __init__(self, filename=None, cache=None): DebPackage.__init__(self, None, cache) self._depends = [] self._conflicts = [] self.pkgname = "" self.binaries = [] if filename is not None: self.open(filename) @property def depends(self): """Return the dependencies of the package""" return self._depends @property def conflicts(self): """Return the dependencies of the package""" return self._conflicts def open(self, file): """Open the package.""" depends_tags = ["Build-Depends", "Build-Depends-Indep"] conflicts_tags = ["Build-Conflicts", "Build-Conflicts-Indep"] fobj = open(file) tagfile = apt_pkg.TagFile(fobj) try: for sec in tagfile: for tag in depends_tags: if not tag in sec: continue self._depends.extend(apt_pkg.parse_src_depends(sec[tag])) for tag in conflicts_tags: if not tag in sec: continue self._conflicts.extend(apt_pkg.parse_src_depends(sec[tag])) if 'Source' in sec: self.pkgname = sec['Source'] if 'Binary' in sec: self.binaries = sec['Binary'].split(', ') if 'Version' in sec: self._sections['Version'] = sec['Version'] finally: del tagfile fobj.close() s = _("Install Build-Dependencies for " "source package '%s' that builds %s\n") % (self.pkgname, " ".join(self.binaries)) self._sections["Description"] = s def check(self): """Check if the package is installable..""" if not self.check_conflicts(): for pkgname in self._installed_conflicts: if self._cache[pkgname]._pkg.essential: raise Exception(_("An essential package would be removed")) self._cache[pkgname].mark_delete() # FIXME: a additional run of the checkConflicts() # after _satisfyDepends() should probably be done return self._satisfy_depends(self.depends) def _test(): """Test function""" from apt.cache import Cache from apt.progress import DpkgInstallProgress cache = Cache() vp = "www-browser" #print "%s virtual: %s" % (vp, cache.isVirtualPackage(vp)) providers = cache.get_providing_packages(vp) print "Providers for %s :" % vp for pkg in providers: print " %s" % pkg.name d = DebPackage(sys.argv[1], cache) print "Deb: %s" % d.pkgname if not d.check(): print "can't be satified" print d._failure_string print "missing deps: %s" % d.missing_deps print d.required_changes print "Installing ..." ret = d.install(DpkgInstallProgress()) print ret #s = DscSrcPackage(cache, "../tests/3ddesktop_0.2.9-6.dsc") #s.check_dep() #print "Missing deps: ",s.missingDeps #print "Print required changes: ", s.requiredChanges s = DscSrcPackage(cache=cache) d = "libc6 (>= 2.3.2), libaio (>= 0.3.96) | libaio1 (>= 0.3.96)" print s._satisfy_depends(apt_pkg.parse_depends(d)) if __name__ == "__main__": _test()