Exemple #1
0
def setup_repos(namespace, attr):
    # Get repo(s) to operate on.
    if namespace.repo:
        # The store repo machinery handles --raw and --unfiltered for
        # us, thus it being the first check.
        repos = [namespace.repo]
    elif (namespace.contents or namespace.size or namespace._owns
          or namespace._owns_re or namespace.installed):
        repos = namespace.domain.installed_repos
    elif namespace.unfiltered:
        if namespace.all_repos:
            repos = list(namespace.domain.installed_repos)
            repos.extend(namespace.domain.unfiltered_repos)
        elif namespace.ebuild_repos:
            repos = namespace.domain.ebuild_repos_raw
        elif namespace.binary_repos:
            repos = namespace.domain.binary_repos_raw
        else:
            repos = namespace.domain.unfiltered_repos
    elif namespace.all_repos:
        repos = namespace.domain.repos
    elif namespace.ebuild_repos:
        repos = namespace.domain.ebuild_repos
    elif namespace.binary_repos:
        repos = namespace.domain.binary_repos
    else:
        repos = namespace.domain.source_repos

    if namespace.raw or namespace.virtuals:
        repos = get_raw_repos(repos)
    if namespace.virtuals:
        repos = get_virtual_repos(repos, namespace.virtuals == 'only')
    setattr(namespace, attr, repos)
Exemple #2
0
def setup_repos(namespace, attr):
    # Get repo(s) to operate on.
    if namespace.repo:
        # The store repo machinery handles --raw and --unfiltered for
        # us, thus it being the first check.
        repos = [namespace.repo]
    elif (namespace.contents or namespace.size or namespace._owns or
            namespace._owns_re or namespace.installed):
        repos = namespace.domain.installed_repos
    elif namespace.unfiltered:
        if namespace.all_repos:
            repos = list(namespace.domain.installed_repos)
            repos.extend(namespace.domain.unfiltered_repos)
        elif namespace.ebuild_repos:
            repos = namespace.domain.ebuild_repos_raw
        elif namespace.binary_repos:
            repos = namespace.domain.binary_repos_raw
        else:
            repos = namespace.domain.unfiltered_repos
    elif namespace.all_repos:
        repos = namespace.domain.repos
    elif namespace.ebuild_repos:
        repos = namespace.domain.ebuild_repos
    elif namespace.binary_repos:
        repos = namespace.domain.binary_repos
    else:
        repos = namespace.domain.source_repos

    if namespace.raw or namespace.virtuals:
        repos = get_raw_repos(repos)
    if namespace.virtuals:
        repos = get_virtual_repos(
            repos, namespace.virtuals == 'only')
    setattr(namespace, attr, repos)
Exemple #3
0
def check_args(parser, namespace):
    # Get repo(s) to operate on.
    if namespace.repo:
        repos = (namespace.repo,)
    else:
        repos = namespace.domain.repos
    namespace.repos = get_virtual_repos(get_raw_repos(repos), False)
Exemple #4
0
def main(options, out, err):
    if options.list_sets:
        display_pkgsets(out, options)
        return 0

    config = options.config
    if options.debug:
        resolver.plan.limiters.add(None)

    domain = options.domain
    world_set = world_list = options.world
    if options.oneshot:
        world_set = None

    formatter = options.formatter(
        out=out,
        err=err,
        unstable_arch=domain.unstable_arch,
        use_expand=domain.profile.use_expand,
        use_expand_hidden=domain.profile.use_expand_hidden,
        pkg_get_use=domain.get_package_use_unconfigured,
        world_list=world_list,
        verbosity=options.verbosity,
        installed_repos=domain.all_installed_repos,
        distdir=domain.fetcher.get_storage_path(),
        quiet_repo_display=options.quiet_repo_display)

    # This mode does not care about sets and packages so bypass all that.
    if options.unmerge:
        if not options.oneshot:
            if world_set is None:
                argparser.error("disable world updating via --oneshot, "
                                "or fix your configuration")
        try:
            unmerge(out, err, domain.installed_repos, options.targets, options,
                    formatter, world_set)
        except (parserestrict.ParseError, Failure) as e:
            argparser.error(e)
        return

    source_repos = domain.source_repos
    installed_repos = domain.installed_repos
    pkg_type = 'ebuilds'

    if options.usepkgonly:
        source_repos = domain.binary_repos
        pkg_type = 'binpkgs'
    elif options.usepkg:
        # binary repos are checked for matches first before ebuild repos
        source_repos = domain.binary_repos + domain.ebuild_repos
        pkg_type = 'ebuilds or binpkgs'
    elif options.source_only:
        source_repos = domain.ebuild_repos

    atoms = []
    for setname, pkgset in options.sets:
        if pkgset is None:
            return 1
        l = list(pkgset)
        if not l:
            out.write(
                f"skipping set {setname!r}: set is empty, nothing to update")
        else:
            atoms.extend(l)

    for token, restriction in options.targets:
        try:
            matches = parse_target(restriction,
                                   source_repos.combined,
                                   installed_repos,
                                   return_none=True)
        except parserestrict.ParseError as e:
            e.token = token
            argparser.error(e)
        if matches is None:
            if not options.ignore_failures:
                error_msg = [f"no matching {pkg_type}: {token!r}"]
                if token in config.pkgset:
                    error_msg.append(
                        f"use '@{token}' instead for the package set")
                elif options.usepkgonly:
                    matches = parse_target(restriction,
                                           domain.ebuild_repos.combined,
                                           installed_repos,
                                           return_none=True)
                    if matches:
                        error_msg.append(
                            "try re-running without -K/--usepkgonly "
                            "enabled to rebuild from source")
                argparser.error(' -- '.join(error_msg))
        else:
            atoms.extend(matches)

    if not atoms and not options.newuse:
        err.write(f"{options.prog}: no targets specified; nothing to do")
        return 1

    atoms = stable_unique(atoms)

    if options.clean and not options.oneshot:
        if world_set is None:
            argparser.error(
                "disable world updating via --oneshot, or fix your configuration"
            )

    extra_kwargs = {}
    if options.empty:
        extra_kwargs['resolver_cls'] = resolver.empty_tree_merge_plan
    if options.debug:
        extra_kwargs['debug'] = True

    # XXX: This should recurse on deep
    if options.newuse:
        out.write(out.bold, ' * ', out.reset, 'Scanning for changed USE...')
        out.title('Scanning for changed USE...')
        for inst_pkg in installed_repos.itermatch(OrRestriction(*atoms)):
            src_pkgs = source_repos.match(inst_pkg.versioned_atom)
            if src_pkgs:
                src_pkg = max(src_pkgs)
                inst_iuse = inst_pkg.iuse_stripped
                src_iuse = src_pkg.iuse_stripped
                inst_flags = inst_iuse.intersection(inst_pkg.use)
                src_flags = src_iuse.intersection(src_pkg.use)
                if inst_flags.symmetric_difference(src_flags) or \
                   inst_iuse.symmetric_difference(src_iuse):
                    atoms.append(src_pkg.unversioned_atom)

    excludes = [restriction for token, restriction in options.excludes]
    if options.onlydeps:
        excludes.extend(atoms)

    if excludes:
        injected_repo = RestrictionRepo(repo_id='injected',
                                        restrictions=excludes,
                                        frozen=True,
                                        livefs=True)
        installed_repos = injected_repo + installed_repos

#    left intentionally in place for ease of debugging.
#    from guppy import hpy
#    hp = hpy()
#    hp.setrelheap()

    resolver_inst = options.resolver_kls(
        vdbs=installed_repos,
        dbs=source_repos,
        verify_vdb=options.deep,
        nodeps=options.nodeps,
        drop_cycles=options.ignore_cycles,
        force_replace=options.replace,
        process_built_depends=options.with_bdeps,
        **extra_kwargs)

    if options.preload_vdb_state:
        out.write(out.bold, ' * ', out.reset, 'Preloading vdb... ')
        vdb_time = time()
        resolver_inst.load_vdb_state()
        vdb_time = time() - vdb_time
    else:
        vdb_time = 0.0

    # flush warning messages before dep resolution begins
    out.flush()
    err.flush()

    failures = []
    resolve_time = time()
    if sys.stdout.isatty():
        out.title('Resolving...')
        out.write(out.bold, ' * ', out.reset, 'Resolving...')
        out.flush()
    ret = resolver_inst.add_atoms(atoms, finalize=True)
    while ret:
        out.error('resolution failed')
        restrict = ret[0][0]
        just_failures = reduce_to_failures(ret[1])
        display_failures(out, just_failures, debug=options.debug)
        failures.append(restrict)
        if not options.ignore_failures:
            break
        out.write("restarting resolution")
        atoms = [x for x in atoms if x != restrict]
        resolver_inst.reset()
        ret = resolver_inst.add_atoms(atoms, finalize=True)
    resolve_time = time() - resolve_time

    if failures:
        out.write()
        out.write('Failures encountered:')
        for restrict in failures:
            out.error(f"failed '{restrict}'")
            out.write('potentials:')
            match_count = 0
            for r in get_raw_repos(source_repos):
                l = r.match(restrict)
                if l:
                    out.write(f"repo {r}: [ {', '.join(map(str, l))} ]")
                    match_count += len(l)
            if not match_count:
                out.write("No matches found")
            if not options.ignore_failures:
                return 1
            out.write()

    resolver_inst.free_caches()

    if options.clean:
        out.write(out.bold, ' * ', out.reset, 'Packages to be removed:')
        vset = set(installed_repos.real.combined)
        len_vset = len(vset)
        vset.difference_update(x.pkg
                               for x in resolver_inst.state.iter_ops(True))
        wipes = sorted(x for x in vset if x.package_is_real)
        for x in wipes:
            out.write(f"Remove {x}")
        out.write()
        if wipes:
            out.write("removing %i packages of %i installed, %0.2f%%." %
                      (len(wipes), len_vset, 100 *
                       (len(wipes) / float(len_vset))))
        else:
            out.write("no packages to remove")
        if options.pretend:
            return 0
        if options.ask:
            if not formatter.ask("Do you wish to proceed?",
                                 default_answer=False):
                return 1
            out.write()
        repo_obs = observer.repo_observer(observer.formatter_output(out),
                                          debug=options.debug)
        do_unmerge(options, out, err, installed_repos.real.combined, wipes,
                   world_set, repo_obs)
        return 0

    if options.debug:
        out.write()
        out.write(out.bold, ' * ', out.reset, 'debug: all ops')
        out.first_prefix.append(" ")
        plan_len = len(str(len(resolver_inst.state.plan)))
        for pos, op in enumerate(resolver_inst.state.plan):
            out.write(str(pos + 1).rjust(plan_len), ': ', str(op))
        out.first_prefix.pop()
        out.write(out.bold, ' * ', out.reset, 'debug: end all ops')
        out.write()

    changes = resolver_inst.state.ops(only_real=True)

    build_obs = observer.phase_observer(observer.formatter_output(out),
                                        debug=options.debug)
    repo_obs = observer.repo_observer(observer.formatter_output(out),
                                      debug=options.debug)

    # show pkgs to merge in selected format
    if (options.ask or options.pretend) and changes:
        for op in changes:
            formatter.format(op)
        formatter.end()

    if vdb_time:
        out.write(out.bold, 'Took %.2f' % (vdb_time, ), out.reset,
                  ' seconds to preload vdb state')

    if changes:
        if not options.fetchonly:
            # run sanity checks for pkgs -- pkg_pretend, REQUIRED_USE, etc
            out.write()
            out.write(out.bold, " * ", out.reset, "Running sanity checks...")
            if options.debug:
                start_time = time()
            # flush output so bash spawned errors are shown in the correct order of events
            out.flush()
            sanity_failures = run_sanity_checks((x.pkg for x in changes),
                                                domain,
                                                threads=1)
            if sanity_failures:
                for pkg, errors in sanity_failures.items():
                    out.write(pkg.cpvstr)
                    out.write('\n'.join(
                        e.msg(verbosity=options.verbosity) for e in errors))
                    out.write()
                if options.ignore_failures:
                    out.write(out.fg('red'), out.bold, "!!! ", out.reset,
                              "Skipping failed sanity checks...")
                else:
                    out.write(out.fg('red'), out.bold, "!!! ", out.reset,
                              "Sanity checks failed, exiting...")
                    return 1
            else:
                out.write()
            if options.debug:
                out.write(
                    out.bold, " * ", out.reset,
                    "finished sanity checks in %.2f seconds" %
                    (time() - start_time))
                out.write()
    elif options.verbosity > 0:
        # show skipped virtuals
        virtual_pkgs = set()
        for x in atoms:
            matches = installed_repos.virtual.match(x)
            if matches:
                virtual_pkgs.add(sorted(matches)[-1])
        if virtual_pkgs:
            out.write("Skipping virtual pkgs:\n%s\n" %
                      '\n'.join(str(x.versioned_atom) for x in virtual_pkgs))

        out.write("Nothing to merge.")
        return

    if options.pretend:
        if options.verbosity > 0:
            out.write(
                out.bold, ' * ', out.reset,
                "resolver plan required %i ops (%.2f seconds)" %
                (len(resolver_inst.state.plan), resolve_time))
        return

    action = 'merge'
    if options.fetchonly:
        action = 'fetch'
    if (options.ask and
            not formatter.ask(f"Would you like to {action} these packages?")):
        return

    change_count = len(changes)

    # left in place for ease of debugging.
    cleanup = []
    try:
        for count, op in enumerate(changes):
            for func in cleanup:
                func()

            cleanup = []

            out.write(f"\nProcessing {count + 1} of {change_count}: "
                      f"{op.pkg.cpvstr}::{op.pkg.repo}")
            out.title(f"{count + 1}/{change_count}: {op.pkg.cpvstr}")
            if op.desc != "remove":
                cleanup.append(op.pkg.release_cached_data)

                if not options.fetchonly and options.debug:
                    out.write("Forcing a clean of workdir")

                pkg_ops = domain.pkg_operations(op.pkg, observer=build_obs)
                out.write(
                    f"\n{len(op.pkg.distfiles)} file{pluralism(op.pkg.distfiles)} required-"
                )
                if not pkg_ops.run_if_supported("fetch", or_return=True):
                    out.error(f"fetching failed for {op.pkg.cpvstr}")
                    if not options.ignore_failures:
                        return 1
                    continue
                if options.fetchonly:
                    continue

                buildop = pkg_ops.run_if_supported("build", or_return=None)
                pkg = op.pkg
                if buildop is not None:
                    out.write(f"building {op.pkg.cpvstr}")
                    result = False
                    exc = None
                    try:
                        result = buildop.finalize()
                    except format.BuildError as e:
                        out.error(
                            f"caught exception building {op.pkg.cpvstr}: {e}")
                        exc = e
                    else:
                        if result is False:
                            out.error(f"failed building {op.pkg.cpvstr}")
                    if result is False:
                        if not options.ignore_failures:
                            raise ExitException(1) from exc
                        continue
                    pkg = result
                    cleanup.append(pkg.release_cached_data)
                    pkg_ops = domain.pkg_operations(pkg, observer=build_obs)
                    cleanup.append(buildop.cleanup)

                cleanup.append(partial(pkg_ops.run_if_supported, "cleanup"))
                pkg = pkg_ops.run_if_supported("localize", or_return=pkg)
                # wipe this to ensure we don't inadvertantly use it further down;
                # we aren't resetting it after localizing, so could have the wrong
                # set of ops.
                del pkg_ops

                out.write()
                if op.desc == "replace":
                    if op.old_pkg == pkg:
                        out.write(f">>> Reinstalling {pkg.cpvstr}")
                    else:
                        out.write(
                            f">>> Replacing {op.old_pkg.cpvstr} with {pkg.cpvstr}"
                        )
                    i = domain.replace_pkg(op.old_pkg, pkg, repo_obs)
                    cleanup.append(op.old_pkg.release_cached_data)
                else:
                    out.write(f">>> Installing {pkg.cpvstr}")
                    i = domain.install_pkg(pkg, repo_obs)

                # force this explicitly- can hold onto a helluva lot more
                # then we would like.
            else:
                out.write(f">>> Removing {op.pkg.cpvstr}")
                i = domain.uninstall_pkg(op.pkg, repo_obs)
            try:
                ret = i.finish()
            except merge_errors.BlockModification as e:
                out.error(f"Failed to merge {op.pkg}: {e}")
                if not options.ignore_failures:
                    return 1
                continue

            # while this does get handled through each loop, wipe it now; we don't need
            # that data, thus we punt it now to keep memory down.
            # for safety sake, we let the next pass trigger a release also-
            # mainly to protect against any code following triggering reloads
            # basically, be protective

            if world_set is not None:
                if op.desc == "remove":
                    out.write(f'>>> Removing {op.pkg.cpvstr} from world file')
                    removal_pkg = slotatom_if_slotted(source_repos.combined,
                                                      op.pkg.versioned_atom)
                    update_worldset(world_set, removal_pkg, remove=True)
                elif not options.oneshot and any(
                        x.match(op.pkg) for x in atoms):
                    if not (options.upgrade or options.downgrade):
                        out.write(f'>>> Adding {op.pkg.cpvstr} to world file')
                        add_pkg = slotatom_if_slotted(source_repos.combined,
                                                      op.pkg.versioned_atom)
                        update_worldset(world_set, add_pkg)

#    again... left in place for ease of debugging.
#    except KeyboardInterrupt:
#        import pdb;pdb.set_trace()
#    else:
#        import pdb;pdb.set_trace()
    finally:
        pass

    # the final run from the loop above doesn't invoke cleanups;
    # we could ignore it, but better to run it to ensure nothing is
    # inadvertantly held on the way out of this function.
    # makes heappy analysis easier if we're careful about it.
    for func in cleanup:
        func()

    # and wipe the reference to the functions to allow things to fall out of
    # memory.
    cleanup = []

    return 0
Exemple #5
0
def main(options, out, err):
    if options.list_sets:
        display_pkgsets(out, options)
        return 0

    config = options.config
    if options.debug:
        resolver.plan.limiters.add(None)

    domain = options.domain
    livefs_repos = domain.all_livefs_repos
    world_set = world_list = options.world
    if options.oneshot:
        world_set = None

    formatter = options.formatter(
        out=out,
        err=err,
        unstable_arch=domain.unstable_arch,
        domain_settings=domain.settings,
        use_expand=domain.profile.use_expand,
        use_expand_hidden=domain.profile.use_expand_hidden,
        pkg_get_use=domain.get_package_use_unconfigured,
        world_list=world_list,
        verbose=options.verbose,
        livefs_repos=livefs_repos,
        distdir=domain.fetcher.get_storage_path(),
        quiet_repo_display=options.quiet_repo_display)

    # This mode does not care about sets and packages so bypass all that.
    if options.unmerge:
        if not options.oneshot:
            if world_set is None:
                argparser.error(
                    "disable world updating via --oneshot, or fix your configuration"
                )
        try:
            unmerge(out, err, livefs_repos, options.targets, options,
                    formatter, world_set)
        except (parserestrict.ParseError, Failure) as e:
            argparser.error(str(e))
        return

    source_repos = domain.source_repos
    installed_repos = domain.installed_repos
    pkg_type = 'ebuilds'

    if options.usepkgonly:
        source_repos = domain.binary_repos
        pkg_type = 'binpkgs'
    elif options.usepkg:
        source_repos = domain.binary_repos + domain.ebuild_repos
        pkg_type = 'ebuilds or binpkgs'
    elif options.source_only:
        source_repos = domain.ebuild_repos

    atoms = []
    for setname, pkgset in options.sets:
        if pkgset is None:
            return 1
        l = list(pkgset)
        if not l:
            out.write("skipping set %r: set is empty, nothing to update" %
                      setname)
        else:
            atoms.extend(l)

    for token, restriction in options.targets:
        try:
            matches = parse_target(restriction,
                                   source_repos.combined,
                                   livefs_repos,
                                   return_none=True)
        except parserestrict.ParseError as e:
            e.token = token
            argparser.error(str(e))
        if matches is None:
            if not options.ignore_failures:
                error_msg = ["no matching {}: {!r}".format(pkg_type, token)]
                if token in config.pkgset:
                    error_msg.append(
                        "use '@{}' instead for the package set".format(token))
                elif options.usepkgonly:
                    matches = parse_target(restriction,
                                           domain.ebuild_repos.combined,
                                           livefs_repos,
                                           return_none=True)
                    if matches:
                        error_msg.append(
                            "try re-running without -K/--usepkgonly enabled to rebuild from source"
                        )
                argparser.error(' -- '.join(error_msg))
        else:
            atoms.extend(matches)

    if not atoms and not options.newuse:
        err.write("%s: no targets specified; nothing to do" % (options.prog, ))
        return 1

    atoms = stable_unique(atoms)

    if options.clean and not options.oneshot:
        if world_set is None:
            argparser.error(
                "disable world updating via --oneshot, or fix your configuration"
            )

    if options.upgrade:
        resolver_kls = resolver.upgrade_resolver
    else:
        resolver_kls = resolver.min_install_resolver

    extra_kwargs = {}
    if options.empty:
        extra_kwargs['resolver_cls'] = resolver.empty_tree_merge_plan
    if options.debug:
        extra_kwargs['debug'] = True

    # XXX: This should recurse on deep
    if options.newuse:
        out.write(out.bold, ' * ', out.reset, 'Scanning for changed USE...')
        out.title('Scanning for changed USE...')
        for inst_pkg in installed_repos.itermatch(OrRestriction(*atoms)):
            src_pkgs = source_repos.match(inst_pkg.versioned_atom)
            if src_pkgs:
                src_pkg = max(src_pkgs)
                inst_iuse = inst_pkg.iuse_stripped
                src_iuse = src_pkg.iuse_stripped
                inst_flags = inst_iuse.intersection(inst_pkg.use)
                src_flags = src_iuse.intersection(src_pkg.use)
                if inst_flags.symmetric_difference(src_flags) or \
                   inst_iuse.symmetric_difference(src_iuse):
                    atoms.append(src_pkg.unversioned_atom)

#    left intentionally in place for ease of debugging.
#    from guppy import hpy
#    hp = hpy()
#    hp.setrelheap()

    resolver_inst = resolver_kls(vdbs=installed_repos.repos,
                                 dbs=source_repos.repos,
                                 verify_vdb=options.deep,
                                 nodeps=options.nodeps,
                                 drop_cycles=options.ignore_cycles,
                                 force_replace=options.replace,
                                 process_built_depends=options.with_bdeps,
                                 **extra_kwargs)

    if options.preload_vdb_state:
        out.write(out.bold, ' * ', out.reset, 'Preloading vdb... ')
        vdb_time = time()
        resolver_inst.load_vdb_state()
        vdb_time = time() - vdb_time
    else:
        vdb_time = 0.0

    failures = []
    resolve_time = time()
    skipdeps = atoms if options.onlydeps else ()
    if sys.stdout.isatty():
        out.title('Resolving...')
        out.write(out.bold, ' * ', out.reset, 'Resolving...')
    ret = resolver_inst.add_atoms(atoms, skipdeps=skipdeps, finalize=True)
    while ret:
        out.error('resolution failed')
        restrict = ret[0][0]
        just_failures = reduce_to_failures(ret[1])
        display_failures(out, just_failures, debug=options.debug)
        failures.append(restrict)
        if not options.ignore_failures:
            break
        out.write("restarting resolution")
        atoms = [x for x in atoms if x != restrict]
        resolver_inst.reset()
        ret = resolver_inst.add_atoms(atoms, finalize=True)
    resolve_time = time() - resolve_time

    if options.debug:
        out.write(out.bold, " * ", out.reset,
                  "resolution took %.2f seconds" % resolve_time)

    if failures:
        out.write()
        out.write('Failures encountered:')
        for restrict in failures:
            out.error("failed '%s'" % (restrict, ))
            out.write('potentials:')
            match_count = 0
            for r in get_raw_repos(source_repos.repos):
                l = r.match(restrict)
                if l:
                    out.write("repo %s: [ %s ]" %
                              (r, ", ".join(str(x) for x in l)))
                    match_count += len(l)
            if not match_count:
                out.write("No matches found")
            if not options.ignore_failures:
                return 1
            out.write()

    resolver_inst.free_caches()

    if options.clean:
        out.write(out.bold, ' * ', out.reset, 'Packages to be removed:')
        vset = set(installed_repos.combined)
        len_vset = len(vset)
        vset.difference_update(x.pkg
                               for x in resolver_inst.state.iter_ops(True))
        wipes = sorted(x for x in vset if x.package_is_real)
        for x in wipes:
            out.write("Remove %s" % x)
        out.write()
        if wipes:
            out.write("removing %i packages of %i installed, %0.2f%%." %
                      (len(wipes), len_vset, 100 *
                       (len(wipes) / float(len_vset))))
        else:
            out.write("no packages to remove")
        if options.pretend:
            return 0
        if options.ask:
            if not formatter.ask("Do you wish to proceed?",
                                 default_answer=False):
                return 1
            out.write()
        repo_obs = observer.repo_observer(observer.formatter_output(out),
                                          not options.debug)
        do_unmerge(options, out, err, installed_repos.combined, wipes,
                   world_set, repo_obs)
        return 0

    if options.debug:
        out.write()
        out.write(out.bold, ' * ', out.reset, 'debug: all ops')
        out.first_prefix.append(" ")
        plan_len = len(str(len(resolver_inst.state.plan)))
        for pos, op in enumerate(resolver_inst.state.plan):
            out.write(str(pos + 1).rjust(plan_len), ': ', str(op))
        out.first_prefix.pop()
        out.write(out.bold, ' * ', out.reset, 'debug: end all ops')
        out.write()

    changes = resolver_inst.state.ops(only_real=True)

    build_obs = observer.build_observer(observer.formatter_output(out),
                                        not options.debug)
    repo_obs = observer.repo_observer(observer.formatter_output(out),
                                      not options.debug)

    # don't run pkg_pretend if only fetching
    if not options.fetchonly:
        if options.debug:
            out.write(out.bold, " * ", out.reset, "running sanity checks")
            start_time = time()
        if not changes.run_sanity_checks(domain, build_obs):
            if not options.ignore_failures:
                return 1
            else:
                out.write()
        if options.debug:
            out.write(
                out.bold, " * ", out.reset,
                "finished sanity checks in %.2f seconds" %
                (time() - start_time))
            out.write()

    if options.ask or options.pretend:
        for op in changes:
            formatter.format(op)
        formatter.end()

    if vdb_time:
        out.write(out.bold, 'Took %.2f' % (vdb_time, ), out.reset,
                  ' seconds to preload vdb state')
    if not changes:
        out.write("Nothing to merge.")
        return

    if options.pretend:
        if options.verbose:
            out.write(
                out.bold, ' * ', out.reset,
                "resolver plan required %i ops (%.2f seconds)" %
                (len(resolver_inst.state.plan), resolve_time))
        return

    action = 'merge'
    if options.fetchonly:
        action = 'fetch'
    if (options.ask and not formatter.ask(
            "Would you like to {} these packages?".format(action))):
        return

    change_count = len(changes)

    # left in place for ease of debugging.
    cleanup = []
    try:
        for count, op in enumerate(changes):
            for func in cleanup:
                func()

            cleanup = []

            out.write("\nProcessing %i of %i: %s::%s" %
                      (count + 1, change_count, op.pkg.cpvstr, op.pkg.repo))
            out.title("%i/%i: %s" % (count + 1, change_count, op.pkg.cpvstr))
            if op.desc != "remove":
                cleanup = [op.pkg.release_cached_data]

                if not options.fetchonly and options.debug:
                    out.write("Forcing a clean of workdir")

                pkg_ops = domain.pkg_operations(op.pkg, observer=build_obs)
                out.write("\n%i files required-" % len(op.pkg.fetchables))
                if not pkg_ops.run_if_supported("fetch", or_return=True):
                    out.error("fetching failed for %s" % (op.pkg.cpvstr, ))
                    if not options.ignore_failures:
                        return 1
                    continue
                if options.fetchonly:
                    continue

                buildop = pkg_ops.run_if_supported("build", or_return=None)
                pkg = op.pkg
                if buildop is not None:
                    out.write("building %s" % (op.pkg.cpvstr, ))
                    result = False
                    try:
                        result = buildop.finalize()
                    except format.errors as e:
                        out.error("caught exception building %s: %s" %
                                  (op.pkg.cpvstr, e))
                    else:
                        if result is False:
                            out.error("failed building %s" % (op.pkg.cpvstr, ))
                    if result is False:
                        if not options.ignore_failures:
                            return 1
                        continue
                    pkg = result
                    cleanup.append(pkg.release_cached_data)
                    pkg_ops = domain.pkg_operations(pkg, observer=build_obs)
                    cleanup.append(buildop.cleanup)

                cleanup.append(partial(pkg_ops.run_if_supported, "cleanup"))
                pkg = pkg_ops.run_if_supported("localize", or_return=pkg)
                # wipe this to ensure we don't inadvertantly use it further down;
                # we aren't resetting it after localizing, so could have the wrong
                # set of ops.
                del pkg_ops

                out.write()
                if op.desc == "replace":
                    if op.old_pkg == pkg:
                        out.write(">>> Reinstalling %s" % (pkg.cpvstr))
                    else:
                        out.write(">>> Replacing %s with %s" %
                                  (op.old_pkg.cpvstr, pkg.cpvstr))
                    i = domain.replace_pkg(op.old_pkg, pkg, repo_obs)
                    cleanup.append(op.old_pkg.release_cached_data)
                else:
                    out.write(">>> Installing %s" % (pkg.cpvstr, ))
                    i = domain.install_pkg(pkg, repo_obs)

                # force this explicitly- can hold onto a helluva lot more
                # then we would like.
            else:
                out.write(">>> Removing %s" % op.pkg.cpvstr)
                i = domain.uninstall_pkg(op.pkg, repo_obs)
            try:
                ret = i.finish()
            except merge_errors.BlockModification as e:
                out.error("Failed to merge %s: %s" % (op.pkg, e))
                if not options.ignore_failures:
                    return 1
                continue

            # while this does get handled through each loop, wipe it now; we don't need
            # that data, thus we punt it now to keep memory down.
            # for safety sake, we let the next pass trigger a release also-
            # mainly to protect against any code following triggering reloads
            # basically, be protective

            if world_set is not None:
                if op.desc == "remove":
                    out.write('>>> Removing %s from world file' %
                              op.pkg.cpvstr)
                    removal_pkg = slotatom_if_slotted(source_repos.combined,
                                                      op.pkg.versioned_atom)
                    update_worldset(world_set, removal_pkg, remove=True)
                elif not options.oneshot and any(
                        x.match(op.pkg) for x in atoms):
                    if not options.upgrade:
                        out.write('>>> Adding %s to world file' %
                                  op.pkg.cpvstr)
                        add_pkg = slotatom_if_slotted(source_repos.combined,
                                                      op.pkg.versioned_atom)
                        update_worldset(world_set, add_pkg)

#    again... left in place for ease of debugging.
#    except KeyboardInterrupt:
#        import pdb;pdb.set_trace()
#    else:
#        import pdb;pdb.set_trace()
    finally:
        pass

    # the final run from the loop above doesn't invoke cleanups;
    # we could ignore it, but better to run it to ensure nothing is
    # inadvertantly held on the way out of this function.
    # makes heappy analysis easier if we're careful about it.
    for func in cleanup:
        func()

    # and wipe the reference to the functions to allow things to fall out of
    # memory.
    cleanup = []

    out.write("finished")
    return 0