freeipa/ipaserver/install/service.py

# Authors: Karl MacMillan <kmacmillan@mentalrootkit.com>
#
# Copyright (C) 2007  Red Hat
# see file 'COPYING' for use and warranty information
#
# 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 3 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, see <http://www.gnu.org/licenses/>.
#

from __future__ import absolute_import

import logging
import sys
import os
import pwd
import socket
import time
import traceback
import tempfile

import six

from ipalib.install import certstore, sysrestore
from ipapython import ipautil
from ipapython.dn import DN
from ipapython import kerberos
from ipalib import api, errors, x509
from ipaplatform import services
from ipaplatform.paths import paths

logger = logging.getLogger(__name__)

if six.PY3:
    unicode = str

# The service name as stored in cn=masters,cn=ipa,cn=etc. In the tuple
# the first value is the *nix service name, the second the start order.
SERVICE_LIST = {
    'KDC': ('krb5kdc', 10),
    'KPASSWD': ('kadmin', 20),
    'DNS': ('named', 30),
    'HTTP': ('httpd', 40),
    'KEYS': ('ipa-custodia', 41),
    'CA': ('pki-tomcatd', 50),
    'KRA': ('pki-tomcatd', 51),
    'ADTRUST': ('smb', 60),
    'EXTID': ('winbind', 70),
    'OTPD': ('ipa-otpd', 80),
    'DNSKeyExporter': ('ipa-ods-exporter', 90),
    'DNSSEC': ('ods-enforcerd', 100),
    'DNSKeySync': ('ipa-dnskeysyncd', 110),
}

def print_msg(message, output_fd=sys.stdout):
    logger.debug("%s", message)
    output_fd.write(message)
    output_fd.write("\n")
    output_fd.flush()


def format_seconds(seconds):
    """Format a number of seconds as an English minutes+seconds message"""
    parts = []
    minutes, seconds = divmod(seconds, 60)
    if minutes:
        parts.append('%d minute' % minutes)
        if minutes != 1:
            parts[-1] += 's'
    if seconds or not minutes:
        parts.append('%d second' % seconds)
        if seconds != 1:
            parts[-1] += 's'
    return ' '.join(parts)

def add_principals_to_group(admin_conn, group, member_attr, principals):
    """Add principals to a GroupOfNames LDAP group
    admin_conn  -- LDAP connection with admin rights
    group       -- DN of the group
    member_attr -- attribute to represent members
    principals  -- list of DNs to add as members
    """
    try:
        current = admin_conn.get_entry(group)
        members = current.get(member_attr, [])
        if len(members) == 0:
            current[member_attr] = []
        for amember in principals:
            if not(amember in members):
                current[member_attr].extend([amember])
        admin_conn.update_entry(current)
    except errors.NotFound:
        entry = admin_conn.make_entry(
                group,
                objectclass=["top", "GroupOfNames"],
                cn=[group['cn']],
                member=principals,
        )
        admin_conn.add_entry(entry)
    except errors.EmptyModlist:
        # If there are no changes just pass
        pass


def find_providing_servers(svcname, conn, api):
    """
    Find servers that provide the given service.

    :param svcname: The service to find
    :param conn: a connection to the LDAP server
    :return: list of host names (possibly empty)

    """
    dn = DN(('cn', 'masters'), ('cn', 'ipa'), ('cn', 'etc'), api.env.basedn)
    query_filter = conn.make_filter({'objectClass': 'ipaConfigObject',
                                     'ipaConfigString': 'enabledService',
                                     'cn': svcname}, rules='&')
    try:
        entries, _trunc = conn.find_entries(filter=query_filter, base_dn=dn)
    except errors.NotFound:
        return []
    else:
        return [entry.dn[1].value for entry in entries]


def find_providing_server(svcname, conn, host_name=None, api=api):
    """
    Find a server that provides the given service.

    :param svcname: The service to find
    :param conn: a connection to the LDAP server
    :param host_name: the preferred server
    :return: the selected host name

    """
    servers = find_providing_servers(svcname, conn, api)
    if len(servers) == 0:
        return None
    if host_name in servers:
        return host_name
    return servers[0]


def case_insensitive_attr_has_value(attr, value):
    """
    Helper function to find value in an attribute having case-insensitive
    matching rules

    :param attr: attribute values
    :param value: value to find

    :returns: True if the case-insensitive match succeeds, false otherwise

    """
    if any(value.lower() == val.lower()
           for val in attr):
        return True

    return False


def set_service_entry_config(name, fqdn, config_values,
                             ldap_suffix='',
                             post_add_config=()):
    """
    Sets the 'ipaConfigString' values on the entry. If the entry is not present
    already, create a new one with desired 'ipaConfigString'

    :param name: service entry name
    :param config_values: configuration values to store
    :param fqdn: master fqdn
    :param ldap_suffix: LDAP backend suffix
    :param post_add_config: additional configuration to add when adding a
        non-existent entry
    """
    assert isinstance(ldap_suffix, DN)

    entry_name = DN(
        ('cn', name), ('cn', fqdn), ('cn', 'masters'),
        ('cn', 'ipa'), ('cn', 'etc'), ldap_suffix)

    # enable disabled service
    try:
        entry = api.Backend.ldap2.get_entry(
            entry_name, ['ipaConfigString'])
    except errors.NotFound:
        pass
    else:
        existing_values = entry.get('ipaConfigString', [])
        for value in config_values:
            if case_insensitive_attr_has_value(existing_values, value):
                logger.debug(
                    "service %s: config string %s already set", name, value)

            entry.setdefault('ipaConfigString', []).append(value)

        try:
            api.Backend.ldap2.update_entry(entry)
        except errors.EmptyModlist:
            logger.debug(
                "service %s has already enabled config values %s", name,
                config_values)
            return
        except:
            logger.debug("failed to set service %s config values", name)
            raise

        logger.debug("service %s has all config values set", name)
        return

    entry = api.Backend.ldap2.make_entry(
        entry_name,
        objectclass=["nsContainer", "ipaConfigObject"],
        cn=[name],
        ipaconfigstring=config_values + list(post_add_config),
    )

    try:
        api.Backend.ldap2.add_entry(entry)
    except (errors.DuplicateEntry) as e:
        logger.debug("failed to add service entry %s", name)
        raise e


class Service(object):
    def __init__(self, service_name, service_desc=None, sstore=None,
                 fstore=None, api=api, realm_name=None,
                 service_user=None, service_prefix=None,
                 keytab=None):
        self.service_name = service_name
        self.service_desc = service_desc
        self.service = services.service(service_name, api)
        self.steps = []
        self.output_fd = sys.stdout

        self.fqdn = socket.gethostname()

        if sstore:
            self.sstore = sstore
        else:
            self.sstore = sysrestore.StateFile(paths.SYSRESTORE)

        if fstore:
            self.fstore = fstore
        else:
            self.fstore = sysrestore.FileStore(paths.SYSRESTORE)

        self.realm = realm_name
        self.suffix = DN()
        self.service_prefix = service_prefix
        self.keytab = keytab
        self.cert = None
        self.api = api
        self.service_user = service_user
        self.keytab_user = service_user
        self.dm_password = None  # silence pylint
        self.promote = False

    @property
    def principal(self):
        if any(attr is None for attr in (self.realm, self.fqdn,
                                         self.service_prefix)):
            return

        return unicode(
            kerberos.Principal(
                (self.service_prefix, self.fqdn), realm=self.realm))

    def _ldap_mod(self, ldif, sub_dict=None, raise_on_err=True,
                  ldap_uri=None, dm_password=None):
        pw_name = None
        fd = None
        path = os.path.join(paths.USR_SHARE_IPA_DIR, ldif)
        nologlist = []

        if sub_dict is not None:
            txt = ipautil.template_file(path, sub_dict)
            fd = ipautil.write_tmp_file(txt)
            path = fd.name

            # do not log passwords
            if 'PASSWORD' in sub_dict:
                nologlist.append(sub_dict['PASSWORD'])
            if 'RANDOM_PASSWORD' in sub_dict:
                nologlist.append(sub_dict['RANDOM_PASSWORD'])

        args = [paths.LDAPMODIFY, "-v", "-f", path]

        # As we always connect to the local host,
        # use URI of admin connection
        if not ldap_uri:
            ldap_uri = api.Backend.ldap2.ldap_uri

        args += ["-H", ldap_uri]

        if dm_password:
            with tempfile.NamedTemporaryFile(
                    mode='w', delete=False) as pw_file:
                pw_file.write(dm_password)
                pw_name = pw_file.name
            auth_parms = ["-x", "-D", "cn=Directory Manager", "-y", pw_name]
        # Use GSSAPI auth when not using DM password or not being root
        elif os.getegid() != 0:
            auth_parms = ["-Y", "GSSAPI"]
        # Default to EXTERNAL auth mechanism
        else:
            auth_parms = ["-Y", "EXTERNAL"]

        args += auth_parms

        try:
            try:
                ipautil.run(args, nolog=nologlist)
            except ipautil.CalledProcessError as e:
                logger.critical("Failed to load %s: %s", ldif, str(e))
                if raise_on_err:
                    raise
        finally:
            if pw_name:
                os.remove(pw_name)

    def move_service(self, principal):
        """
        Used to move a principal entry created by kadmin.local from
        cn=kerberos to cn=services
        """

        dn = DN(('krbprincipalname', principal), ('cn', self.realm), ('cn', 'kerberos'), self.suffix)
        try:
            entry = api.Backend.ldap2.get_entry(dn)
        except errors.NotFound:
            # There is no service in the wrong location, nothing to do.
            # This can happen when installing a replica
            return None
        entry.pop('krbpwdpolicyreference', None)  # don't copy virtual attr
        newdn = DN(('krbprincipalname', principal), ('cn', 'services'), ('cn', 'accounts'), self.suffix)
        hostdn = DN(('fqdn', self.fqdn), ('cn', 'computers'), ('cn', 'accounts'), self.suffix)
        api.Backend.ldap2.delete_entry(entry)
        entry.dn = newdn
        classes = entry.get("objectclass")
        classes = classes + ["ipaobject", "ipaservice", "pkiuser"]
        entry["objectclass"] = list(set(classes))
        entry["ipauniqueid"] = ['autogenerate']
        entry["managedby"] = [hostdn]
        api.Backend.ldap2.add_entry(entry)
        return newdn

    def add_simple_service(self, principal):
        """
        Add a very basic IPA service.

        The principal needs to be fully-formed: service/host@REALM
        """
        dn = DN(('krbprincipalname', principal), ('cn', 'services'), ('cn', 'accounts'), self.suffix)
        hostdn = DN(('fqdn', self.fqdn), ('cn', 'computers'), ('cn', 'accounts'), self.suffix)
        entry = api.Backend.ldap2.make_entry(
            dn,
            objectclass=[
                "krbprincipal", "krbprincipalaux", "krbticketpolicyaux",
                "ipaobject", "ipaservice", "pkiuser"],
            krbprincipalname=[principal],
            ipauniqueid=['autogenerate'],
            managedby=[hostdn],
        )
        api.Backend.ldap2.add_entry(entry)
        return dn

    def add_cert_to_service(self):
        """
        Add a certificate to a service

        This server cert should be in DER format.
        """
        if self.cert is None:
            raise ValueError("{} has no cert".format(self.service_name))
        dn = DN(('krbprincipalname', self.principal), ('cn', 'services'),
                ('cn', 'accounts'), self.suffix)
        entry = api.Backend.ldap2.get_entry(dn)
        entry.setdefault('userCertificate', []).append(self.cert)
        try:
            api.Backend.ldap2.update_entry(entry)
        except Exception as e:
            logger.critical("Could not add certificate to service %s entry: "
                            "%s", self.principal, str(e))

    def export_ca_certs_file(self, cafile, ca_is_configured, conn=None):
        """
        Export the CA certificates stored in LDAP into a file

        :param cafile: the file to write the CA certificates to
        :param ca_is_configured: whether IPA is CA-less or not
        :param conn: an optional LDAP connection to use
        """
        if conn is None:
            conn = api.Backend.ldap2

        ca_certs = None
        try:
            ca_certs = certstore.get_ca_certs(
                conn, self.suffix, self.realm, ca_is_configured)
        except errors.NotFound:
            pass
        else:
            with open(cafile, 'wb') as fd:
                for cert, _unused, _unused, _unused in ca_certs:
                    fd.write(cert.public_bytes(x509.Encoding.PEM))

    def export_ca_certs_nssdb(self, db, ca_is_configured, conn=None):
        """
        Export the CA certificates stored in LDAP into an NSS database

        :param db: the target NSS database
        :param ca_is_configured: whether IPA is CA-less or not
        :param conn: an optional LDAP connection to use
        """
        if conn is None:
            conn = api.Backend.ldap2

        try:
            ca_certs = certstore.get_ca_certs_nss(
                conn, self.suffix, self.realm, ca_is_configured)
        except errors.NotFound:
            pass
        else:
            for cert, nickname, trust_flags in ca_certs:
                db.add_cert(cert, nickname, trust_flags)

    def is_configured(self):
        return self.sstore.has_state(self.service_name)

    def set_output(self, fd):
        self.output_fd = fd

    def stop(self, instance_name="", capture_output=True):
        self.service.stop(instance_name, capture_output=capture_output)

    def start(self, instance_name="", capture_output=True, wait=True):
        self.service.start(instance_name, capture_output=capture_output, wait=wait)

    def restart(self, instance_name="", capture_output=True, wait=True):
        self.service.restart(instance_name, capture_output=capture_output, wait=wait)

    def is_running(self, instance_name="", wait=True):
        return self.service.is_running(instance_name, wait)

    def install(self):
        self.service.install()

    def remove(self):
        self.service.remove()

    def enable(self):
        self.service.enable()

    def disable(self):
        self.service.disable()

    def is_enabled(self):
        return self.service.is_enabled()

    def mask(self):
        return self.service.mask()

    def unmask(self):
        return self.service.unmask()

    def is_masked(self):
        return self.service.is_masked()

    def backup_state(self, key, value):
        self.sstore.backup_state(self.service_name, key, value)

    def restore_state(self, key):
        return self.sstore.restore_state(self.service_name, key)

    def get_state(self, key):
        return self.sstore.get_state(self.service_name, key)

    def print_msg(self, message):
        print_msg(message, self.output_fd)

    def step(self, message, method, run_after_failure=False):
        self.steps.append((message, method, run_after_failure))

    def start_creation(self, start_message=None, end_message=None,
                       show_service_name=True, runtime=None):
        """
        Starts creation of the service.

        Use start_message and end_message for explicit messages
        at the beggining / end of the process. Otherwise they are generated
        using the service description (or service name, if the description has
        not been provided).

        Use show_service_name to include service name in generated descriptions.
        """
        creation_start = time.time()

        if start_message is None:
            # no other info than mandatory service_name provided, use that
            if self.service_desc is None:
                start_message = "Configuring %s" % self.service_name

            # description should be more accurate than service name
            else:
                start_message = "Configuring %s" % self.service_desc
                if show_service_name:
                    start_message = "%s (%s)" % (start_message, self.service_name)

        if end_message is None:
            if self.service_desc is None:
                if show_service_name:
                    end_message = "Done configuring %s." % self.service_name
                else:
                    end_message = "Done."
            else:
                if show_service_name:
                    end_message = "Done configuring %s (%s)." % (
                        self.service_desc, self.service_name)
                else:
                    end_message = "Done configuring %s." % self.service_desc

        if runtime is not None and runtime > 0:
            self.print_msg('%s. Estimated time: %s' % (start_message,
                                                      format_seconds(runtime)))
        else:
            self.print_msg(start_message)

        def run_step(message, method):
            self.print_msg(message)
            start = time.time()
            method()
            dur = time.time() - start
            name = method.__name__
            logger.debug(
                "step duration: %s %s %.02f sec",
                self.service_name, name, dur,
                extra={'timing': ('step', self.service_name, name, dur)},
            )

        step = 0
        steps_iter = iter(self.steps)
        try:
            for message, method, run_after_failure in steps_iter:
                full_msg = "  [%d/%d]: %s" % (step+1, len(self.steps), message)
                run_step(full_msg, method)
                step += 1
        except BaseException as e:
            if not (isinstance(e, SystemExit) and
                    e.code == 0):  # pylint: disable=no-member
                # show the traceback, so it's not lost if cleanup method fails
                logger.debug("%s", traceback.format_exc())
                self.print_msg('  [error] %s: %s' % (type(e).__name__, e))

                # run through remaining methods marked run_after_failure
                for message, method, run_after_failure in steps_iter:
                    if run_after_failure:
                        run_step("  [cleanup]: %s" % message, method)

            raise

        self.print_msg(end_message)
        dur = time.time() - creation_start
        logger.debug(
            "service duration: %s %.02f sec",
            self.service_name, dur,
            extra={'timing': ('service', self.service_name, None, dur)},
        )
        self.steps = []

    def ldap_enable(self, name, fqdn, dm_password=None, ldap_suffix='',
                    config=[]):
        extra_config_opts = [
            ' '.join([u'startOrder', unicode(SERVICE_LIST[name][1])])
        ]
        extra_config_opts.extend(config)

        self.disable()

        set_service_entry_config(
            name,
            fqdn,
            [u'enabledService'],
            ldap_suffix=ldap_suffix,
            post_add_config=extra_config_opts)

    def ldap_disable(self, name, fqdn, ldap_suffix):
        assert isinstance(ldap_suffix, DN)

        entry_dn = DN(('cn', name), ('cn', fqdn), ('cn', 'masters'),
                        ('cn', 'ipa'), ('cn', 'etc'), ldap_suffix)
        search_kw = {'ipaConfigString': u'enabledService'}
        filter = api.Backend.ldap2.make_filter(search_kw)
        try:
            entries, _truncated = api.Backend.ldap2.find_entries(
                filter=filter,
                attrs_list=['ipaConfigString'],
                base_dn=entry_dn,
                scope=api.Backend.ldap2.SCOPE_BASE)
        except errors.NotFound:
            logger.debug("service %s startup entry already disabled", name)
            return

        assert len(entries) == 1  # only one entry is expected
        entry = entries[0]

        # case insensitive
        for value in entry.get('ipaConfigString', []):
            if value.lower() == u'enabledservice':
                entry['ipaConfigString'].remove(value)
                break

        try:
            api.Backend.ldap2.update_entry(entry)
        except errors.EmptyModlist:
            pass
        except:
            logger.debug("failed to disable service %s startup entry", name)
            raise

        logger.debug("service %s startup entry disabled", name)

    def ldap_remove_service_container(self, name, fqdn, ldap_suffix):
        entry_dn = DN(('cn', name), ('cn', fqdn), ('cn', 'masters'),
                        ('cn', 'ipa'), ('cn', 'etc'), ldap_suffix)
        try:
            api.Backend.ldap2.delete_entry(entry_dn)
        except errors.NotFound:
            logger.debug("service %s container already removed", name)
        else:
            logger.debug("service %s container sucessfully removed", name)

    def _add_service_principal(self):
        try:
            self.api.Command.service_add(self.principal, force=True)
        except errors.DuplicateEntry:
            pass

    def clean_previous_keytab(self, keytab=None):
        if keytab is None:
            keytab = self.keytab

        self.fstore.backup_file(keytab)
        try:
            os.unlink(keytab)
        except OSError:
            pass

    def set_keytab_owner(self, keytab=None, owner=None):
        if keytab is None:
            keytab = self.keytab
        if owner is None:
            owner = self.service_user

        pent = pwd.getpwnam(owner)
        os.chown(keytab, pent.pw_uid, pent.pw_gid)

    def run_getkeytab(self, ldap_uri, keytab, principal, retrieve=False):
        """
        retrieve service keytab using ipa-getkeytab. This assumes that the
        service principal is already created in LDAP. By default GSSAPI
        authentication is used unless:
            * LDAPI socket is used and effective process UID is 0, then
              autobind is used by EXTERNAL SASL mech
            * self.dm_password is not none, then DM credentials are used to
              fetch keytab
        """
        args = [paths.IPA_GETKEYTAB,
                '-k', keytab,
                '-p', principal,
                '-H', ldap_uri]
        nolog = tuple()

        if ldap_uri.startswith("ldapi://") and os.geteuid() == 0:
            args.extend(["-Y", "EXTERNAL"])
        elif self.dm_password is not None and not self.promote:
            args.extend(
                ['-D', 'cn=Directory Manager',
                 '-w', self.dm_password])
            nolog += (self.dm_password,)

        if retrieve:
            args.extend(['-r'])

        ipautil.run(args, nolog=nolog)

    def request_service_keytab(self):
        if any(attr is None for attr in (self.principal, self.keytab)):
            raise NotImplementedError(
                "service must have defined principal "
                "name and keytab")

        self._add_service_principal()
        self.clean_previous_keytab()
        self.run_getkeytab(self.api.env.ldap_uri, self.keytab, self.principal)
        self.set_keytab_owner()


class SimpleServiceInstance(Service):
    def create_instance(self, gensvc_name=None, fqdn=None, ldap_suffix=None,
                        realm=None):
        self.gensvc_name = gensvc_name
        self.fqdn = fqdn
        self.suffix = ldap_suffix
        self.realm = realm

        self.step("starting %s " % self.service_name, self.__start)
        self.step("configuring %s to start on boot" % self.service_name, self.__enable)
        self.start_creation("Configuring %s" % self.service_name)

    suffix = ipautil.dn_attribute_property('_ldap_suffix')

    def __start(self):
        self.backup_state("running", self.is_running())
        self.restart()

    def __enable(self):
        self.backup_state("enabled", self.is_enabled())
        if self.gensvc_name == None:
            self.enable()
        else:
            self.ldap_enable(self.gensvc_name, self.fqdn, None, self.suffix)

    def is_installed(self):
        return self.service.is_installed()

    def uninstall(self):
        if self.is_configured():
            self.print_msg("Unconfiguring %s" % self.service_name)

        running = self.restore_state("running")
        enabled = self.restore_state("enabled")

        if self.is_installed():
            self.stop()
            self.disable()

            if running:
                self.start()
            if enabled:
                self.enable()