Beispiel #1
0
def __getpackageurl(package):
    packagedb = inary.db.packagedb.PackageDB()
    repodb = inary.db.repodb.RepoDB()
    pkg, ver = util.parse_package_name(package)

    reponame = None
    try:
        reponame = packagedb.which_repo(pkg)
    except Exception:
        # Maybe this package is obsoluted from repository
        for repo in repodb.get_binary_repos():
            if pkg in packagedb.get_obsoletes(repo):
                reponame = repo

    if not reponame:
        raise PackageNotFound

    repourl = repodb.get_repo_url(reponame)
    ctx.ui.info(_("Package \"{0}\" found in repository \"{1}\".").format(pkg, reponame))

    # return _possible_ url for this package
    return os.path.join(os.path.dirname(repourl),
                        util.parse_package_dir_path(package),
                        package)
Beispiel #2
0
    def index(self, repo_uri, skip_sources=False):
        self.repo_dir = repo_uri

        packages = []
        specs = []
        deltas = {}

        ctx.ui.info(_("* Generating index tree...\n"), color="cyan")

        pkgs_sorted = False
        for fn in os.walk(repo_uri).__next__()[2]:
            if fn.endswith(ctx.const.delta_package_suffix) or fn.endswith(
                    ctx.const.package_suffix):
                pkgpath = os.path.join(repo_uri,
                                       util.parse_package_dir_path(fn))
                if not os.path.isdir(pkgpath):
                    os.makedirs(pkgpath)
                ctx.ui.info(
                    "{:80.80}\r".format(_(' -> Sorting:  \"{}\"').format(fn)),
                    noln=False if ctx.config.get_option("verbose") else True)
                shutil.copy2(os.path.join(repo_uri, fn), pkgpath)
                os.remove(os.path.join(repo_uri, fn))
                pkgs_sorted = True
        if pkgs_sorted:
            ctx.ui.info("{:80.80}\r".format(
                util.colorize(_(' * Sorted:  \"{}\"').format(fn),
                              color="green")))

        for root, dirs, files in os.walk(repo_uri):
            # Filter hidden directories
            # TODO: Add --exclude-dirs parameter to CLI and filter according
            # directories here
            dirs[:] = [d for d in dirs if not d.startswith(".")]

            for fn in files:

                if fn.endswith(ctx.const.delta_package_suffix):
                    name = util.parse_package_name_get_name(fn)
                    deltas.setdefault(name, []).append(os.path.join(root, fn))
                elif fn.endswith(ctx.const.package_suffix):
                    packages.append(os.path.join(root, fn))

                if fn == 'components.xml':
                    self.components.extend(
                        add_components(os.path.join(root, fn)))
                if fn == 'pspec.xml' and not skip_sources:
                    specs.append((os.path.join(root, fn), repo_uri))
                if fn == 'distribution.xml':
                    self.distribution = add_distro(os.path.join(root, fn))
                if fn == 'groups.xml':
                    self.groups.extend(add_groups(os.path.join(root, fn)))

        ctx.ui.info("")

        # Create a process pool, as many processes as the number of CPUs we
        # have
        try:
            obsoletes_list = list(map(str, self.distribution.obsoletes))
        except AttributeError:
            obsoletes_list = []
        if obsoletes_list:
            ctx.ui.info(_(
                " * Added obsoleted packages: [ {} ]".format(obsoletes_list)),
                        color="blue",
                        noln=False)

        pool = multiprocessing.Pool()

        # Before calling pool.map check if list is empty or not: python#12157
        if specs:
            ctx.ui.info(_(" * Adding source packages: "),
                        color="blue",
                        noln=False)
            try:
                # Add source packages to index using a process pool
                self.specs = pool.map(add_spec, specs)
                ctx.ui.info("\n")
            except BaseException:
                # If an exception occurs (like a keyboard interrupt),
                # immediately terminate worker processes and propagate
                # exception. (CLI honors KeyboardInterrupt exception, if you're
                # not using CLI, you must handle KeyboardException yourself)
                pool.terminate()
                pool.join()
                ctx.ui.info("")
                raise

        latest_packages = []

        for pkg in util.filter_latest_packages(packages):
            pkg_name = util.parse_package_name(os.path.basename(pkg))[0]
            if pkg_name.endswith(ctx.const.debug_name_suffix):
                pkg_name = util.remove_suffix(ctx.const.debug_name_suffix,
                                              pkg_name)
            if pkg_name not in obsoletes_list:
                # Currently, multiprocessing.Pool.map method accepts methods
                # with single parameters only. So we have to send our
                # parameters as a tuple to workaround that

                latest_packages.append((pkg, deltas, repo_uri))

        # Before calling pool.map check if list is empty or not: python#12157
        if latest_packages:
            sorted_pkgs = {}
            for pkg in latest_packages:
                key = re.search(r"\/((lib)?[\d\w])\/", pkg[0])
                key = key.group(1) if key else os.path.dirname(pkg[0])
                try:
                    sorted_pkgs[key].append(pkg)
                except KeyError:
                    sorted_pkgs[key] = [pkg]
            self.packages = []
            ctx.ui.info(_(" * Adding binary packages: "),
                        color="blue",
                        noln=False)
            for key, pkgs in sorted(sorted_pkgs.items()):
                ctx.ui.info("{:80.80}\r".format(
                    _("   -> Adding packages from directory \"{}\"... ".format(
                        key))),
                            noln=True)
                try:
                    # Add binary packages to index using a process pool
                    self.packages.extend(pool.map(add_package, pkgs))
                except BaseException:
                    pool.terminate()
                    pool.join()
                    ctx.ui.info("")
                    raise
                ctx.ui.info("{:80.80}\r".format(
                    _("   * Adding packages from directory \"{}\"... done.".
                      format(key))),
                            color="green",
                            noln=False)
            ctx.ui.info(_("* Writing index file."), color="blue")

        pool.close()
        pool.join()
Beispiel #3
0
def install_pkg_files(package_URIs, reinstall=False):
    """install a number of inary package files"""

    installdb = inary.db.installdb.InstallDB()
    ctx.ui.debug('A = {}'.format(str(package_URIs)))

    for x in package_URIs:
        if not x.endswith(ctx.const.package_suffix):
            raise Exception(_('Mixing file names and package names not supported yet.'))

    # filter packages that are already installed
    tobe_installed, already_installed = [], set()
    if not reinstall:
        for x in package_URIs:
            if not x.endswith(ctx.const.delta_package_suffix) and x.endswith(ctx.const.package_suffix):
                pkg_name, pkg_version = util.parse_package_name(os.path.basename(x))
                if installdb.has_package(pkg_name):
                    already_installed.add(pkg_name)
                else:
                    tobe_installed.append(x)
        if already_installed:
            ctx.ui.warning(_("The following package(s) are already installed "
                             "and are not going to be installed again:"))
            ctx.ui.info(util.format_by_columns(sorted(already_installed)))
        package_URIs = tobe_installed

    if ctx.config.get_option('ignore_dependency'):
        # simple code path then
        for x in package_URIs:
            atomicoperations.install_single_file(x, reinstall)
        return True

    # read the package information into memory first
    # regardless of which distribution they come from
    d_t = {}
    dfn = {}
    for x in package_URIs:
        try:
            package = inary.package.Package(x)
            package.read()
        except zipfile.BadZipfile:
            # YALI needed to get which file is broken
            raise zipfile.BadZipfile(x)
        name = str(package.metadata.package.name)
        d_t[name] = package.metadata.package
        dfn[name] = x

    # check packages' DistributionReleases and Architecture
    if not ctx.get_option('ignore_check'):
        for x in list(d_t.keys()):
            pkg = d_t[x]
            if pkg.distributionRelease != ctx.config.values.general.distribution_release:
                raise Exception(_('Package \"{0}\" is not compatible with your distribution release \'{1}\' \'{2}\'.').format(
                    x, ctx.config.values.general.distribution,
                    ctx.config.values.general.distribution_release))
            if pkg.architecture != ctx.config.values.general.architecture:
                raise Exception(
                    _('Package \"{0}\" (\'{1}\') is not compatible with your \'{2}\' architecture.').format(x, pkg.architecture,
                                                                                                ctx.config.values.general.architecture))

    def satisfiesDep(dep):
        # is dependency satisfied among available packages
        # or packages to be installed?
        return dep.satisfied_by_installed() or dep.satisfied_by_dict_repo(d_t)

    # for this case, we have to determine the dependencies
    # that aren't already satisfied and try to install them
    # from the repository
    dep_unsatis = []
    for name in list(d_t.keys()):
        pkg = d_t[name]
        deps = pkg.runtimeDependencies()
        for dep in deps:
            if not satisfiesDep(dep) and dep.package not in [x.package for x in dep_unsatis]:
                dep_unsatis.append(dep)

    # now determine if these unsatisfied dependencies could
    # be satisfied by installing packages from the repo
    for dep in dep_unsatis:
        if not dep.satisfied_by_repo():
            raise Exception(_('External dependencies not satisfied: \"{}\"').format(dep))

    # if so, then invoke install_pkg_names
    extra_packages = [x.package for x in dep_unsatis]
    if extra_packages:
        ctx.ui.warning(_("The following packages will be installed "
                         "in order to satisfy dependencies:"))
        ctx.ui.info(util.format_by_columns(sorted(extra_packages)))
        if not ctx.ui.confirm(_('Would you like to continue?')):
            raise Exception(_('External dependencies not satisfied.'))
        install_pkg_names(extra_packages, reinstall=True, extra=True)

    class PackageDB:
        @staticmethod
        def get_package(key, repo=None):
            return d_t[str(key)]

    packagedb = PackageDB()

    A = list(d_t.keys())

    if len(A) == 0:
        ctx.ui.info(_('No packages to install.'))
        return

    # try to construct a inary graph of packages to
    # install / reinstall

    G_f = pgraph.PGraph(packagedb)  # construct G_f

    # find the "install closure" graph of G_f by package
    # set A using packagedb
    for x in A:
        G_f.add_package(x)
    B = A
    while len(B) > 0:
        Bp = set()
        for x in B:
            pkg = packagedb.get_package(x)
            for dep in pkg.runtimeDependencies():
                if dep.satisfied_by_dict_repo(d_t):
                    if not dep.package in G_f.vertices():
                        Bp.add(str(dep.package))
                    G_f.add_dep(x, dep)
        B = Bp
    if ctx.config.get_option('debug'):
        G_f.write_graphviz(sys.stdout)
    order = G_f.topological_sort()
    if not ctx.get_option('ignore_package_conflicts'):
        conflicts = operations.helper.check_conflicts(order, packagedb)
        if conflicts:
            operations.remove.remove_conflicting_packages(conflicts)
    order.reverse()
    ctx.ui.info(_('Installation order: ') + util.strlist(order))

    if ctx.get_option('dry_run'):
        return True

    ctx.ui.notify(ui.packagestogo, order=order)

    for x in order:
        atomicoperations.install_single_file(dfn[x], reinstall)

    return True