Beispiel #1
0
def install_pkg_files(package_URIs):
    """install a number of pisi package files"""
    from package import Package

    ctx.ui.debug('A = %s' % str(package_URIs))

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

    if ctx.config.get_option('ignore_dependency'):
        # simple code path then
        for x in package_URIs:
            atomicoperations.install_single_file(x)
        return # short circuit
            
    # read the package information into memory first
    # regardless of which distribution they come from
    d_t = {}
    dfn = {}
    for x in package_URIs:
        package = Package(x)
        package.read()
        name = str(package.metadata.package.name)
        d_t[name] = package.metadata.package
        dfn[name] = x

    def satisfiesDep(dep):
        # is dependency satisfied among available packages
        # or packages to be installed?
        return dependency.installed_satisfies_dep(dep) \
               or dependency.dict_satisfies_dep(d_t, dep)
            
    # 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 d_t.keys():
        pkg = d_t[name]
        deps = pkg.runtimeDependencies()
        for dep in deps:
            if not satisfiesDep(dep):
                dep_unsatis.append(dep)

    # now determine if these unsatisfied dependencies could
    # be satisfied by installing packages from the repo

    # if so, then invoke install_pkg_names
    extra_packages = [x.package for x in dep_unsatis]
    if extra_packages:
        ctx.ui.info(_("""The following packages will be installed
in the respective order to satisfy extra dependencies:
""") + util.strlist(extra_packages))
        if not ctx.ui.confirm(_('Do you want to continue?')):
            raise Error(_('External dependencies not satisfied'))
        install_pkg_names(extra_packages)

    class PackageDB:
        def get_package(self, key, repo = None):
            return d_t[str(key)]
    
    packagedb = PackageDB()
   
    A = d_t.keys()
   
    if len(A)==0:
        ctx.ui.info(_('No packages to install.'))
        return
    
    # try to construct a pisi 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 dependency.dict_satisfies_dep(d_t, dep):
                    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_file_conflicts'):
        check_conflicts(order, packagedb)
    order.reverse()
    ctx.ui.info(_('Installation order: ') + util.strlist(order) )

    if ctx.get_option('dry_run'):
        return

    ctx.ui.notify(ui.packagestogo, order = order)
        
    for x in order:
        atomicoperations.install_single_file(dfn[x])

    pisi_installed = ctx.installdb.is_installed('pisi')
    
    if 'pisi' in order and pisi_installed:
        upgrade_pisi()
Beispiel #2
0
def install_pkg_files(package_URIs):
    """install a number of pisi package files"""

    ctx.ui.debug('A = %s' % 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.'))

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

    # read the package information into memory first
    # regardless of which distribution they come from
    d_t = {}
    dfn = {}
    for x in package_URIs:
        package = pisi.package.Package(x)
        package.read()
        name = str(package.metadata.package.name)
        d_t[name] = package.metadata.package
        dfn[name] = x

    def satisfiesDep(dep):
        # is dependency satisfied among available packages
        # or packages to be installed?
        return dependency.installed_satisfies_dep(dep) \
               or dependency.dict_satisfies_dep(d_t, dep)

    # 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 d_t.keys():
        pkg = d_t[name]
        deps = pkg.runtimeDependencies()
        for dep in deps:
            if not satisfiesDep(dep) and dep not 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 dependency.repo_satisfies_dep(dep):
            raise Exception(_('External dependencies not satisfied: %s') % dep)

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

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

    packagedb = PackageDB()

    A = d_t.keys()

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

    # try to construct a pisi 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 dependency.dict_satisfies_dep(d_t, dep):
                    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])

    return True
Beispiel #3
0
def install_pkg_files(package_URIs, reinstall = False):
    """install a number of pisi package files"""

    installdb = pisi.db.installdb.InstallDB()
    ctx.ui.debug('A = %s' % 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 = pisi.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 = pisi.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 d_t.keys():
            pkg = d_t[x]
            if pkg.distributionRelease != ctx.config.values.general.distribution_release:
                raise Exception(_('Package %s is not compatible with your distribution release %s %s.') \
                        % (x, ctx.config.values.general.distribution, \
                        ctx.config.values.general.distribution_release))
            if pkg.architecture != ctx.config.values.general.architecture:
                raise Exception(_('Package %s (%s) is not compatible with your %s architecture.') \
                        % (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 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: %s') % 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(_('Do you want to continue?')):
            raise Exception(_('External dependencies not satisfied'))
        install_pkg_names(extra_packages, reinstall=True, extra=True)

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

    packagedb = PackageDB()

    A = d_t.keys()

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

    # try to construct a pisi 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
Beispiel #4
0
def install_pkg_files(package_URIs, reinstall = False):
    """install a number of pisi package files"""

    installdb = pisi.db.installdb.InstallDB()
    ctx.ui.debug('A = %s' % 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 = pisi.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:\n") +
                           util.strlist(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 = pisi.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 d_t.keys():
            pkg = d_t[x]
            if pkg.distributionRelease != ctx.config.values.general.distribution_release:
                raise Exception(_('Package %s is not compatible with your distribution release %s %s.') \
                        % (x, ctx.config.values.general.distribution, \
                        ctx.config.values.general.distribution_release))
            if pkg.architecture != ctx.config.values.general.architecture:
                raise Exception(_('Package %s (%s) is not compatible with your %s architecture.') \
                        % (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 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: %s') % dep)

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

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

    packagedb = PackageDB()

    A = d_t.keys()

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

    # try to construct a pisi 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