Exemplo n.º 1
0
class SlurmctldCharm(CharmBase):
    """Slurmctld lifecycle events."""

    _stored = StoredState()

    def __init__(self, *args):
        """Init _stored attributes and interfaces, observe events."""
        super().__init__(*args)

        self._stored.set_default(
            jwt_key=str(),
            munge_key=str(),
            slurm_installed=False,
            slurmd_available=False,
            slurmrestd_available=False,
            slurmdbd_available=False,
            down_nodes=list(),
        )

        self._slurm_manager = SlurmManager(self, "slurmctld")

        self._slurmd = Slurmd(self, "slurmd")
        self._slurmdbd = Slurmdbd(self, "slurmdbd")
        self._slurmrestd = Slurmrestd(self, "slurmrestd")
        self._slurmctld_peer = SlurmctldPeer(self, "slurmctld-peer")
        self._prolog_epilog = PrologEpilog(self, "prolog-epilog")

        self._grafana = GrafanaSource(self, "grafana-source")
        self._influxdb = InfluxDB(self, "influxdb-api")
        self._elasticsearch = Elasticsearch(self, "elasticsearch")
        self._fluentbit = FluentbitClient(self, "fluentbit")

        self._user_group = UserGroupProvides(self, "user-group")
        self._etcd = EtcdOps()

        event_handler_bindings = {
            self.on.install:
            self._on_install,
            self.on.upgrade_charm:
            self._on_upgrade,
            self.on.update_status:
            self._on_update_status,
            self.on.config_changed:
            self._on_write_slurm_config,
            self.on.leader_elected:
            self._on_leader_elected,
            # slurm component lifecycle events
            self._slurmdbd.on.slurmdbd_available:
            self._on_slurmdbd_available,
            self._slurmdbd.on.slurmdbd_unavailable:
            self._on_slurmdbd_unavailable,
            self._slurmd.on.slurmd_available:
            self._on_write_slurm_config,
            self._slurmd.on.slurmd_unavailable:
            self._on_write_slurm_config,
            self._slurmd.on.slurmd_departed:
            self._on_write_slurm_config,
            self._slurmrestd.on.slurmrestd_available:
            self._on_slurmrestd_available,
            self._slurmrestd.on.slurmrestd_unavailable:
            self._on_write_slurm_config,
            self._slurmctld_peer.on.slurmctld_peer_available:
            self.
            _on_write_slurm_config,  # NOTE: a second slurmctld should get the jwt/munge keys and configure them
            # fluentbit
            self.on["fluentbit"].relation_created:
            self._on_fluentbit_relation_created,
            # Addons lifecycle events
            self._prolog_epilog.on.prolog_epilog_available:
            self._on_write_slurm_config,
            self._prolog_epilog.on.prolog_epilog_unavailable:
            self._on_write_slurm_config,
            self._grafana.on.grafana_available:
            self._on_grafana_available,
            self._influxdb.on.influxdb_available:
            self._on_influxdb_available,
            self._influxdb.on.influxdb_unavailable:
            self._on_write_slurm_config,
            self._elasticsearch.on.elasticsearch_available:
            self._on_elasticsearch_available,
            self._elasticsearch.on.elasticsearch_unavailable:
            self._on_write_slurm_config,
            self._user_group.on.create_user_group:
            self._on_create_user_group,
            self._user_group.on.remove_user_group:
            self._on_remove_user_group,
            # actions
            self.on.show_current_config_action:
            self._on_show_current_config,
            self.on.drain_action:
            self._drain_nodes_action,
            self.on.resume_action:
            self._resume_nodes_action,
            self.on.influxdb_info_action:
            self._infludb_info_action,
        }
        for event, handler in event_handler_bindings.items():
            self.framework.observe(event, handler)

    @property
    def hostname(self):
        """Return the hostname."""
        return self._slurm_manager.hostname

    @property
    def port(self):
        """Return the port."""
        return self._slurm_manager.port

    @property
    def cluster_name(self) -> str:
        """Return the cluster name."""
        return self.config.get("cluster-name")

    @property
    def _slurmctld_info(self):
        return self._slurmctld_peer.get_slurmctld_info()

    @property
    def slurmdbd_info(self):
        """Return slurmdbd_info from relation."""
        return self._slurmdbd.get_slurmdbd_info()

    @property
    def _slurmd_info(self) -> list:
        return self._slurmd.get_slurmd_info()

    @property
    def _cluster_info(self):
        """Assemble information about the cluster."""
        cluster_info = {}
        cluster_info['cluster_name'] = self.config.get('cluster-name')
        cluster_info['custom_config'] = self.config.get('custom-config')
        cluster_info['proctrack_type'] = self.config.get('proctrack-type')
        cluster_info['cgroup_config'] = self.config.get('cgroup-config')

        interval = self.config.get('health-check-interval')
        state = self.config.get('health-check-state')
        nhc = self._slurm_manager.slurm_config_nhc_values(interval, state)
        cluster_info.update(nhc)

        return cluster_info

    @property
    def _addons_info(self):
        """Assemble addons for slurm.conf."""
        return {
            **self._assemble_prolog_epilog(),
            **self._assemble_acct_gather_addon(),
            **self._assemble_elastic_search_addon()
        }

    def _assemble_prolog_epilog(self) -> dict:
        """Generate the prolog_epilog section of the addons."""
        logger.debug("## Generating prolog epilog configuration")

        prolog_epilog = self._prolog_epilog.get_prolog_epilog()

        if prolog_epilog:
            return {"prolog_epilog": prolog_epilog}
        else:
            return {}

    def _assemble_acct_gather_addon(self):
        """Generate the acct gather section of the addons."""
        logger.debug("## Generating acct gather configuration")

        addons = dict()

        influxdb_info = self._get_influxdb_info()
        if influxdb_info:
            addons["acct_gather"] = influxdb_info
            addons["acct_gather"]["default"] = "all"
            addons["acct_gather_profile"] = "acct_gather_profile/influxdb"

        # it is possible to setup influxdb or hdf5 profiles without the
        # relation, using the custom-config section of slurm.conf. We need to
        # support setting up the acct_gather configuration for this scenario
        acct_gather_custom = self.config.get("acct-gather-custom")
        if acct_gather_custom:
            if not addons.get("acct_gather"):
                addons["acct_gather"] = dict()

            addons["acct_gather"]["custom"] = acct_gather_custom

        addons["acct_gather_frequency"] = self.config.get(
            "acct-gather-frequency")

        return addons

    def _assemble_elastic_search_addon(self):
        """Generate the acct gather section of the addons."""
        logger.debug("## Generating elastic search addon configuration")
        addon = dict()

        elasticsearch_ingress = self._elasticsearch.elasticsearch_ingress
        if elasticsearch_ingress:
            suffix = f"/{self.cluster_name}/jobcomp"
            addon = {
                "elasticsearch_address": f"{elasticsearch_ingress}{suffix}"
            }

        return addon

    def set_slurmd_available(self, flag: bool):
        """Set stored value of slurmd available."""
        self._stored.slurmd_available = flag

    def _set_slurmdbd_available(self, flag: bool):
        """Set stored value of slurmdbd available."""
        self._stored.slurmdbd_available = flag

    def set_slurmrestd_available(self, flag: bool):
        """Set stored value of slurmdrest available."""
        self._stored.slurmrestd_available = flag

    def _is_leader(self):
        return self.model.unit.is_leader()

    def is_slurm_installed(self):
        """Return true/false based on whether or not slurm is installed."""
        return self._stored.slurm_installed

    def _on_show_current_config(self, event):
        """Show current slurm.conf."""
        slurm_conf = self._slurm_manager.get_slurm_conf()
        event.set_results({"slurm.conf": slurm_conf})

    def _on_install(self, event):
        """Perform installation operations for slurmctld."""
        self.unit.set_workload_version(Path("version").read_text().strip())

        self.unit.status = WaitingStatus("Installing slurmctld")

        custom_repo = self.config.get("custom-slurm-repo")
        successful_installation = self._slurm_manager.install(custom_repo)

        if successful_installation:
            self._stored.slurm_installed = True

            # Store the munge_key and jwt_rsa key in the stored state.
            # NOTE: Use leadership settings instead of stored state when
            # leadership settings support becomes available in the framework.
            if self._is_leader():
                # NOTE the backup controller should also have the jwt and munge
                #      keys configured. We should move these information to the
                #      peer relation.
                self._stored.jwt_rsa = self._slurm_manager.generate_jwt_rsa()
                self._stored.munge_key = self._slurm_manager.get_munge_key()
                self._slurm_manager.configure_jwt_rsa(self.get_jwt_rsa())
            else:
                # NOTE: the secondary slurmctld should get the jwt and munge
                #       keys from the peer relation here
                logger.debug("secondary slurmctld")

            # all slurmctld should restart munged here, as it would assure
            # munge is working
            self._slurm_manager.restart_munged()
        else:
            self.unit.status = BlockedStatus("Error installing slurmctld")
            event.defer()

        logger.debug("## Retrieving etcd resource to install it")
        try:
            etcd_path = self.model.resources.fetch("etcd")
            logger.debug(f"## Found etcd resource: {etcd_path}")
        except ModelError:
            logger.error("## Missing etcd resource")
            self.unit.status = BlockedStatus("Missing etcd resource")
            event.defer()
            return
        self._etcd.install(etcd_path)

        self._check_status()

    def _on_fluentbit_relation_created(self, event):
        """Set up Fluentbit log forwarding."""
        logger.debug("## Configuring fluentbit")
        cfg = list()
        cfg.extend(self._slurm_manager.fluentbit_config_nhc)
        cfg.extend(self._slurm_manager.fluentbit_config_slurm)
        self._fluentbit.configure(cfg)

    def _on_upgrade(self, event):
        """Perform upgrade operations."""
        self.unit.set_workload_version(Path("version").read_text().strip())

    def _on_update_status(self, event):
        """Handle update status."""
        self._check_status()

    def _on_leader_elected(self, event: LeaderElectedEvent) -> None:
        logger.debug("## slurmctld - leader elected")
        self._etcd.start()

        # populate etcd with the nodelist
        slurm_config = self._assemble_slurm_config()
        accounted_nodes = self._assemble_all_nodes(
            slurm_config.get("partitions", []))
        logger.debug(
            f"## Sending to etcd list of accounted nodes: {accounted_nodes}")
        self._etcd.set_list_of_accounted_nodes(accounted_nodes)

    def _check_status(self):
        """Check for all relations and set appropriate status.

        This charm needs these conditions to be satified in order to be ready:
        - Slurm components installed.
        - Munge running.
        - slurmdbd node running.
        - slurmd inventory.
        """
        # NOTE: slurmd and slurmrestd are not needed for slurmctld to work,
        #       only for the cluster to operate. But we need slurmd inventory
        #       to assemble slurm.conf

        if self._slurm_manager.needs_reboot:
            self.unit.status = BlockedStatus("Machine needs reboot")
            return False

        if not self._stored.slurm_installed:
            self.unit.status = BlockedStatus("Error installing slurmctld")
            return False

        if (self._is_leader() and not self._etcd.is_active()):
            self.unit.status = WaitingStatus("Initializing charm")
            return False

        if not self._slurm_manager.check_munged():
            self.unit.status = BlockedStatus("Error configuring munge key")
            return False

        # statuses of mandatory components:
        # - joined: someone executed juju relate slurmctld foo
        # - available: the units exchanged data through the relation
        # NOTE: slurmrestd is not mandatory for the cluster to work, that's why
        #       it is not acounted for in here
        statuses = {
            "slurmd": {
                "available": self._stored.slurmd_available,
                "joined": self._slurmd.is_joined
            },
            "slurmdbd": {
                "available": self._stored.slurmdbd_available,
                "joined": self._slurmdbd.is_joined
            }
        }

        relations_needed = list()
        waiting_on = list()
        for component in statuses.keys():
            if not statuses[component]["joined"]:
                relations_needed.append(component)
            if not statuses[component]["available"]:
                waiting_on.append(component)

        if len(relations_needed):
            msg = f"Need relations: {','.join(relations_needed)}"
            self.unit.status = BlockedStatus(msg)
            return False

        if len(waiting_on):
            msg = f"Wating on: {','.join(waiting_on)}"
            self.unit.status = WaitingStatus(msg)
            return False

        self.unit.status = ActiveStatus("slurmctld available")
        return True

    def get_munge_key(self):
        """Get the stored munge key."""
        return self._stored.munge_key

    def get_jwt_rsa(self):
        """Get the stored jwt_rsa key."""
        return self._stored.jwt_rsa

    def _assemble_partitions(self, slurmd_info):
        """Make any needed modifications to partition data."""
        slurmd_info_tmp = copy.deepcopy(slurmd_info)
        default_partition_from_config = self.config.get("default-partition")

        for partition in slurmd_info:
            # Deep copy the partition to a tmp var so we can modify it as
            # needed whilst not modifying the object we are iterating over.
            partition_tmp = copy.deepcopy(partition)
            # Extract the partition_name from the partition.
            partition_name = partition["partition_name"]

            # Check that the default_partition isn't defined in the charm
            # config.
            # If the user hasn't provided a default partition, then we infer
            # the partition_default by defaulting to the "configurator"
            # partition.
            if default_partition_from_config:
                if default_partition_from_config == partition_name:
                    partition_tmp["partition_default"] = "YES"

            slurmd_info_tmp.remove(partition)
            slurmd_info_tmp.append(partition_tmp)

        return slurmd_info_tmp

    def _assemble_slurm_config(self):
        """Assemble and return the slurm config."""
        logger.debug('## Assembling new slurm.conf')

        slurmctld_info = self._slurmctld_info
        slurmdbd_info = self.slurmdbd_info
        slurmd_info = self._slurmd_info
        cluster_info = self._cluster_info

        logger.debug("######## INFO")
        logger.debug(f'## slurmd: {slurmd_info}')
        logger.debug(f'## slurmctld_info: {slurmctld_info}')
        logger.debug(f'## slurmdbd_info: {slurmdbd_info}')
        logger.debug(f'## cluster_info: {cluster_info}')
        logger.debug("######## INFO - end")

        if not (slurmctld_info and slurmd_info and slurmdbd_info):
            return {}

        addons_info = self._addons_info
        partitions_info = self._assemble_partitions(slurmd_info)
        down_nodes = self._assemble_down_nodes(slurmd_info)

        logger.debug(f'#### addons: {addons_info}')
        logger.debug(f'#### partitions_info: {partitions_info}')
        logger.debug(f"#### Down nodes: {down_nodes}")

        return {
            "partitions": partitions_info,
            "down_nodes": down_nodes,
            **slurmctld_info,
            **slurmdbd_info,
            **addons_info,
            **cluster_info,
        }

    def _on_slurmrestd_available(self, event):
        """Set slurm_config on the relation when slurmrestd available."""
        if not self._check_status():
            event.defer()
            return

        slurm_config = self._assemble_slurm_config()

        if not slurm_config:
            self.unit.status = BlockedStatus(
                "Cannot generate slurm_config - defering event.")
            event.defer()
            return

        if self._stored.slurmrestd_available:
            self._slurmrestd.set_slurm_config_on_app_relation_data(
                slurm_config, )
            self._slurmrestd.restart_slurmrestd()

    def _on_slurmdbd_available(self, event):
        self._set_slurmdbd_available(True)
        self._on_write_slurm_config(event)

    def _on_slurmdbd_unavailable(self, event):
        self._set_slurmdbd_available(False)
        self._check_status()

    def _on_write_slurm_config(self, event):
        """Check that we have what we need before we proceed."""
        logger.debug("### Slurmctld - _on_write_slurm_config()")

        # only the leader should write the config, restart, and scontrol reconf
        if not self._is_leader():
            return

        if not self._check_status():
            event.defer()
            return

        slurm_config = self._assemble_slurm_config()
        if slurm_config:
            self._slurm_manager.render_slurm_configs(slurm_config)

            # restart is needed if nodes are added/removed from the cluster
            self._slurm_manager.slurm_systemctl('restart')
            self._slurm_manager.slurm_cmd('scontrol', 'reconfigure')

            # send the list of hostnames to slurmd via etcd
            accounted_nodes = self._assemble_all_nodes(
                slurm_config["partitions"])
            self._etcd.set_list_of_accounted_nodes(accounted_nodes)

            # send the custom NHC parameters to all slurmd
            self._slurmd.set_nhc_params(self.config.get('health-check-params'))

            # check for "not new anymore" nodes, i.e., nodes that runned the
            # node-configured action. Those nodes are not anymore in the
            # DownNodes section in the slurm.conf, but we need to resume them
            # manually and update the internal cache
            down_nodes = slurm_config['down_nodes']
            configured_nodes = self._assemble_configured_nodes(down_nodes)
            logger.debug(f"### configured nodes: {configured_nodes}")
            self._resume_nodes(configured_nodes)
            self._stored.down_nodes = down_nodes.copy()

            # slurmrestd needs the slurm.conf file, so send it every time it changes
            if self._stored.slurmrestd_available:
                self._slurmrestd.set_slurm_config_on_app_relation_data(
                    slurm_config)
                # NOTE: scontrol reconfigure does not restart slurmrestd
                self._slurmrestd.restart_slurmrestd()
        else:
            logger.debug("## Should rewrite slurm.conf, but we don't have it. "
                         "Deferring.")
            event.defer()

    @staticmethod
    def _assemble_all_nodes(slurmd_info: list) -> List[str]:
        """Parse slurmd_info and return a list with all hostnames."""
        nodes = list()
        for partition in slurmd_info:
            for node in partition["inventory"]:
                nodes.append(node["node_name"])
        return nodes

    @staticmethod
    def _assemble_down_nodes(slurmd_info):
        """Parse partitions' nodes and assemble a list of DownNodes."""
        down_nodes = []
        for partition in slurmd_info:
            for node in partition["inventory"]:
                if node["new_node"]:
                    down_nodes.append(node["node_name"])

        return down_nodes

    def _assemble_configured_nodes(self, down_nodes):
        """Assemble list of nodes that are not new anymore.

        new_node status is removed with an action, this method returns a list
        of nodes that were previously new but are not anymore.
        """
        configured_nodes = []
        for node in self._stored.down_nodes:
            if node not in down_nodes:
                configured_nodes.append(node)

        return configured_nodes

    def _resume_nodes(self, nodelist):
        """Run scontrol to resume the speficied node list."""
        nodes = ",".join(nodelist)
        update_cmd = f"update nodename={nodes} state=resume"
        self._slurm_manager.slurm_cmd('scontrol', update_cmd)

    def _on_grafana_available(self, event):
        """Create the grafana-source if we are the leader and have influxdb."""
        if not self._is_leader():
            return

        influxdb_info = self._get_influxdb_info()

        if influxdb_info:
            self._grafana.set_grafana_source_info(influxdb_info)
        else:
            logger.error(
                "## Can not set Grafana source: missing influxdb relation")

    def _on_influxdb_available(self, event):
        """Assemble addons to forward slurm data to influxdb."""
        self._on_write_slurm_config(event)

    def _on_elasticsearch_available(self, event):
        """Assemble addons to forward Slurm data to elasticsearch."""
        self._on_write_slurm_config(event)

    def _get_influxdb_info(self) -> dict:
        """Return influxdb info."""
        return self._influxdb.get_influxdb_info()

    def _drain_nodes_action(self, event):
        """Drain specified nodes."""
        nodes = event.params['nodename']
        reason = event.params['reason']

        logger.debug(f'#### Draining {nodes} because {reason}.')
        event.log(f'Draining {nodes} because {reason}.')

        try:
            cmd = f'scontrol update nodename={nodes} state=drain reason="{reason}"'
            subprocess.check_output(shlex.split(cmd))
            event.set_results({'status': 'draining', 'nodes': nodes})
        except subprocess.CalledProcessError as e:
            event.fail(message=f'Error draining {nodes}: {e.output}')

    def _resume_nodes_action(self, event):
        """Resume specified nodes."""
        nodes = event.params['nodename']

        logger.debug(f'#### Resuming {nodes}.')
        event.log(f'Resuming {nodes}.')

        try:
            cmd = f'scontrol update nodename={nodes} state=resume'
            subprocess.check_output(shlex.split(cmd))
            event.set_results({'status': 'resuming', 'nodes': nodes})
        except subprocess.CalledProcessError as e:
            event.fail(message=f'Error resuming {nodes}: {e.output}')

    def _infludb_info_action(self, event):
        influxdb_info = self._get_influxdb_info()

        if not influxdb_info:
            influxdb_info = "not related"
        logger.debug(f"## InfluxDB-info action: {influxdb_info}")
        event.set_results({"influxdb": influxdb_info})

    def _on_create_user_group(self, event):
        """Create the user and group provided."""
        user = self._user_group.user_name
        user_uid = self._user_group.user_uid
        group = self._user_group.group_name

        # Create the group.
        try:
            subprocess.check_output(["groupadd", "--gid", user_uid,
                                     group])  # use the UID as the GID
        except subprocess.CalledProcessError as e:
            if e.returncode == 9:
                logger.warning("## Group already exists.")
            if e.returncode == 4:
                logger.warning("## GID already exists.")
                self._user_group._relation.data[self._user_group.model.app][
                    "status"] = "failure: GID already exists"
                return
            else:
                logger.error(f"## Error creating group: {e}")

        # Create the user.
        try:
            subprocess.check_output([
                "useradd",
                "--system",
                "--no-create-home",
                "--gid",
                group,
                "--shell",
                "/usr/sbin/nologin",
                "-u",
                user_uid,
                user,
            ])
        except subprocess.CalledProcessError as e:
            if e.returncode == 9:
                logger.warning("## User already exists.")
            if e.returncode == 4:
                logger.warning("## UID already exists.")
                self._user_group._relation.data[self._user_group.model.app][
                    "status"] = "failure: UID already exists"
                return
            else:
                logger.error(f"## Error creating user: {e}")

        self._user_group._relation.data[
            self._user_group.model.app]["status"] = "success: User created"

    def _on_remove_user_group(self, event):
        """Remove the user and group provided."""
        user = self._user_group.user_name
        group = self._user_group.group_name

        # Remove the user.
        try:
            subprocess.check_output(["userdel", user])
        except subprocess.CalledProcessError as e:
            logger.error(f"## Error deleting user: {e}")

        # Remove the group.
        try:
            subprocess.check_output(["groupdel", group])
        except subprocess.CalledProcessError as e:
            logger.error(f"## Error deleting group: {e}")
Exemplo n.º 2
0
class SlurmdbdCharm(CharmBase):
    """Slurmdbd Charm."""

    _stored = StoredState()
    on = SlurmdbdCharmEvents()

    def __init__(self, *args):
        """Set the default class attributes."""
        super().__init__(*args)

        self._stored.set_default(db_info=dict(),
                                 jwt_available=False,
                                 munge_available=False,
                                 slurm_installed=False,
                                 cluster_name=str())

        self._db = MySQLClient(self, "db")
        # self._nrpe = Nrpe(self, "nrpe-external-master")
        self._slurm_manager = SlurmManager(self, "slurmdbd")
        self._slurmdbd = Slurmdbd(self, "slurmdbd")
        self._slurmdbd_peer = SlurmdbdPeer(self, "slurmdbd-peer")
        self._fluentbit = FluentbitClient(self, "fluentbit")

        event_handler_bindings = {
            self.on.install:
            self._on_install,
            self.on.upgrade_charm:
            self._on_upgrade,
            self.on.update_status:
            self._on_update_status,
            self.on.config_changed:
            self._write_config_and_restart_slurmdbd,
            self.on.jwt_available:
            self._on_jwt_available,
            self.on.munge_available:
            self._on_munge_available,
            self.on.write_config:
            self._write_config_and_restart_slurmdbd,
            self._db.on.database_available:
            self._write_config_and_restart_slurmdbd,
            self._db.on.database_unavailable:
            self._on_db_unavailable,
            self._slurmdbd_peer.on.slurmdbd_peer_available:
            self._write_config_and_restart_slurmdbd,
            self._slurmdbd.on.slurmctld_available:
            self._on_slurmctld_available,
            self._slurmdbd.on.slurmctld_unavailable:
            self._on_slurmctld_unavailable,
            # fluentbit
            self.on["fluentbit"].relation_created:
            self._on_fluentbit_relation_created,
        }
        for event, handler in event_handler_bindings.items():
            self.framework.observe(event, handler)

    def _on_install(self, event):
        """Perform installation operations for slurmdbd."""
        self.unit.set_workload_version(Path("version").read_text().strip())

        self.unit.status = WaitingStatus("Installing slurmdbd")

        custom_repo = self.config.get("custom-slurm-repo")
        successful_installation = self._slurm_manager.install(custom_repo)

        if successful_installation:
            self._stored.slurm_installed = True
            self.unit.status = ActiveStatus("slurmdbd successfully installed")
        else:
            self.unit.status = BlockedStatus("Error installing slurmdbd")
            event.defer()
            return

        self._check_status()

    def _on_fluentbit_relation_created(self, event):
        """Set up Fluentbit log forwarding."""
        self._configure_fluentbit()

    def _configure_fluentbit(self):
        logger.debug("## Configuring fluentbit")
        cfg = list()
        cfg.extend(self._slurm_manager.fluentbit_config_nhc)
        cfg.extend(self._slurm_manager.fluentbit_config_slurm)
        self._fluentbit.configure(cfg)

    def _on_upgrade(self, event):
        """Perform upgrade operations."""
        self.unit.set_workload_version(Path("version").read_text().strip())

    def _on_update_status(self, event):
        """Handle update status."""
        self._check_status()

    def _on_jwt_available(self, event):
        """Retrieve and configure the jwt_rsa key."""
        # jwt rsa lives in slurm spool dir, it is created when slurm is installed
        if not self._stored.slurm_installed:
            event.defer()
            return

        jwt_rsa = self._slurmdbd.get_jwt_rsa()
        self._slurm_manager.configure_jwt_rsa(jwt_rsa)
        self._stored.jwt_available = True

    def _on_munge_available(self, event):
        """Retrieve munge key and start munged."""
        # munge is installed together with slurm
        if not self._stored.slurm_installed:
            event.defer()
            return

        munge_key = self._slurmdbd.get_munge_key()
        self._slurm_manager.configure_munge_key(munge_key)

        if self._slurm_manager.restart_munged():
            logger.debug("## Munge restarted succesfully")
            self._stored.munge_available = True
        else:
            logger.error("## Unable to restart munge")
            self.unit.status = BlockedStatus("Error restarting munge")
            event.defer()

    def _on_db_unavailable(self, event):
        self._stored.db_info = dict()
        # TODO tell slurmctld that slurmdbd left?
        self._check_status()

    def _on_slurmctld_available(self, event):
        self.on.jwt_available.emit()
        self.on.munge_available.emit()

        self.on.write_config.emit()
        if self._fluentbit._relation is not None:
            self._configure_fluentbit()

    def _on_slurmctld_unavailable(self, event):
        """Reset state and charm status when slurmctld broken."""
        self._stored.jwt_available = False
        self._stored.munge_available = False
        self._check_status()

    def _is_leader(self):
        return self.model.unit.is_leader()

    def _write_config_and_restart_slurmdbd(self, event):
        """Check for prereqs before writing config/restart of slurmdbd."""
        # Ensure all pre-conditions are met with _check_status(), if not
        # defer the event.
        if not self._check_status():
            event.defer()
            return

        db_info = self._stored.db_info
        slurmdbd_info = self._slurmdbd_peer.get_slurmdbd_info()

        # settings from the config.yaml
        config = {"slurmdbd_debug": self.config.get("slurmdbd-debug")}

        slurmdbd_config = {
            **config,
            **slurmdbd_info,
            **db_info,
        }

        self._slurm_manager.slurm_systemctl("stop")
        self._slurm_manager.render_slurm_configs(slurmdbd_config)

        # At this point, we must guarantee that slurmdbd is correctly
        # initialized. Its startup might take a while, so we have to wait
        # for it.
        self._check_slurmdbd()

        # Only the leader can set relation data on the application.
        # Enforce that no one other then the leader trys to set
        # application relation data.
        if self.model.unit.is_leader():
            self._slurmdbd.set_slurmdbd_info_on_app_relation_data(
                slurmdbd_config, )

        self._check_status()

    def _check_slurmdbd(self, max_attemps=3) -> None:
        """Ensure slurmdbd is up and running."""
        logger.debug("## Checking if slurmdbd is active")

        for i in range(max_attemps):
            if self._slurm_manager.slurm_is_active():
                logger.debug("## Slurmdbd running")
                break
            else:
                logger.warning("## Slurmdbd not running, trying to start it")
                self.unit.status = WaitingStatus("Starting slurmdbd")
                self._slurm_manager.restart_slurm_component()
                sleep(1 + i)

        if self._slurm_manager.slurm_is_active():
            self._check_status()
        else:
            self.unit.status = BlockedStatus("Cannot start slurmdbd")

    def _check_status(self) -> bool:
        """Check that we have the things we need."""
        if self._slurm_manager.needs_reboot:
            self.unit.status = BlockedStatus("Machine needs reboot")
            return False

        slurm_installed = self._stored.slurm_installed
        if not slurm_installed:
            self.unit.status = BlockedStatus("Error installing slurm")
            return False

        # we must be sure to initialize the charms correctly. Slurmdbd must
        # first connect to the db to be able to connect to slurmctld correctly
        slurmctld_available = (self._stored.jwt_available
                               and self._stored.munge_available)
        statuses = {
            "MySQL": {
                "available": self._stored.db_info != dict(),
                "joined": self._db.is_joined
            },
            "slurcmtld": {
                "available": slurmctld_available,
                "joined": self._slurmdbd.is_joined
            }
        }

        relations_needed = list()
        waiting_on = list()
        for component in statuses.keys():
            if not statuses[component]["joined"]:
                relations_needed.append(component)
            if not statuses[component]["available"]:
                waiting_on.append(component)

        if len(relations_needed):
            msg = f"Need relations: {','.join(relations_needed)}"
            self.unit.status = BlockedStatus(msg)
            return False

        if len(waiting_on):
            msg = f"Wating on: {','.join(waiting_on)}"
            self.unit.status = WaitingStatus(msg)
            return False

        slurmdbd_info = self._slurmdbd_peer.get_slurmdbd_info()
        if not slurmdbd_info:
            self.unit.status = WaitingStatus("slurmdbd starting")
            return False

        if not self._slurm_manager.check_munged():
            self.unit.status = WaitingStatus("munged starting")
            return False

        self.unit.status = ActiveStatus("slurmdbd available")
        return True

    def get_port(self):
        """Return the port from slurm-ops-manager."""
        return self._slurm_manager.port

    def get_hostname(self):
        """Return the hostname from slurm-ops-manager."""
        return self._slurm_manager.hostname

    def set_db_info(self, db_info):
        """Set the db_info in the stored state."""
        self._stored.db_info = db_info

    @property
    def cluster_name(self) -> str:
        """Return the cluster-name."""
        return self._stored.cluster_name

    @cluster_name.setter
    def cluster_name(self, name: str):
        """Set the cluster-name."""
        self._stored.cluster_name = name
Exemplo n.º 3
0
class SlurmdCharm(CharmBase):
    """Slurmd lifecycle events."""

    _stored = StoredState()
    on = SlurmdCharmEvents()

    def __init__(self, *args):
        """Init _stored attributes and interfaces, observe events."""
        super().__init__(*args)

        self._stored.set_default(nhc_conf=str(),
                                 slurm_installed=False,
                                 slurmctld_available=False,
                                 slurmctld_started=False,
                                 cluster_name=str())

        self._slurm_manager = SlurmManager(self, "slurmd")
        self._fluentbit = FluentbitClient(self, "fluentbit")

        # interface to slurmctld, should only have one slurmctld per slurmd app
        self._slurmd = Slurmd(self, "slurmd")
        self._slurmd_peer = SlurmdPeer(self, "slurmd-peer")

        event_handler_bindings = {
            self.on.install: self._on_install,
            self.on.upgrade_charm: self._on_upgrade,
            self.on.update_status: self._on_update_status,
            self.on.config_changed: self._on_config_changed,
            self.on.slurmctld_started: self._on_slurmctld_started,
            self.on.slurmd_start: self._on_slurmd_start,
            self.on.check_etcd: self._on_check_etcd,
            self._slurmd.on.slurmctld_available: self._on_slurmctld_available,
            self._slurmd.on.slurmctld_unavailable:
            self._on_slurmctld_unavailable,
            # fluentbit
            self.on["fluentbit"].relation_created:
            self._on_configure_fluentbit,
            # actions
            self.on.version_action: self._on_version_action,
            self.on.node_configured_action: self._on_node_configured_action,
            self.on.get_node_inventory_action:
            self._on_get_node_inventory_action,
            self.on.show_nhc_config_action: self._on_show_nhc_config,
            # infiniband actions
            self.on.get_infiniband_repo_action: self.get_infiniband_repo,
            self.on.set_infiniband_repo_action: self.set_infiniband_repo,
            self.on.install_infiniband_action: self.install_infiniband,
            self.on.uninstall_infiniband_action: self.uninstall_infiniband,
            self.on.start_infiniband_action: self.start_infiniband,
            self.on.enable_infiniband_action: self.enable_infiniband,
            self.on.stop_infiniband_action: self.stop_infiniband,
            self.on.is_active_infiniband_action: self.is_active_infiniband,
            # nvdia actions
            self.on.nvidia_repo_action: self.nvidia_repo,
            self.on.nvidia_package_action: self.nvidia_package,
            self.on.nvidia_install_action: self.nvidia_install,
        }
        for event, handler in event_handler_bindings.items():
            self.framework.observe(event, handler)

    def _on_install(self, event):
        """Perform installation operations for slurmd."""
        self.unit.set_workload_version(Path("version").read_text().strip())
        self.unit.status = WaitingStatus("Installing slurmd")

        custom_repo = self.config.get("custom-slurm-repo")
        successful_installation = self._slurm_manager.install(custom_repo)
        logger.debug(f"### slurmd installed: {successful_installation}")

        if successful_installation:
            self._stored.slurm_installed = True
        else:
            self.unit.status = BlockedStatus("Error installing slurmd")
            event.defer()

        self._check_status()

    def _on_configure_fluentbit(self, event):
        """Set up Fluentbit log forwarding."""
        self._configure_fluentbit()

    def _configure_fluentbit(self):
        logger.debug("## Configuring fluentbit")
        cfg = list()
        cfg.extend(self._slurm_manager.fluentbit_config_nhc)
        cfg.extend(self._slurm_manager.fluentbit_config_slurm)
        self._fluentbit.configure(cfg)

    def _on_upgrade(self, event):
        """Perform upgrade operations."""
        self.unit.set_workload_version(Path("version").read_text().strip())

    def _on_update_status(self, event):
        """Handle update status."""
        self._check_status()

    def _check_status(self) -> bool:
        """Check if we heve all needed components.

        - partition name
        - slurm installed
        - slurmctld available and working
        - munge key configured and working
        """
        if self._slurm_manager.needs_reboot:
            self.unit.status = BlockedStatus("Machine needs reboot")
            return False

        if not self.get_partition_name():
            self.unit.status = WaitingStatus("Waiting on charm configuration")
            return False

        if not self._stored.slurm_installed:
            self.unit.status = BlockedStatus("Error installing slurmd")
            return False

        if not self._slurmd.is_joined:
            self.unit.status = BlockedStatus("Need relations: slurmctld")
            return False

        if not self._stored.slurmctld_available:
            self.unit.status = WaitingStatus("Waiting on: slurmctld")
            return False

        if not self._slurm_manager.check_munged():
            self.unit.status = BlockedStatus("Error configuring munge key")
            return False

        if not self._stored.slurmctld_started:
            self.unit.status = WaitingStatus("Waiting slurmctld to start")
            return False

        self.unit.status = ActiveStatus("slurmd available")
        return True

    def ensure_slurmd_starts(self, max_attemps=10) -> bool:
        """Ensure slurmd is up and running."""
        logger.debug("## Stoping slurmd")
        self._slurm_manager.slurm_systemctl('stop')

        for i in range(max_attemps):
            if self._slurm_manager.slurm_is_active():
                logger.debug("## Slurmd running")
                break
            else:
                logger.warning("## Slurmd not running, trying to start it")
                self.unit.status = WaitingStatus("Starting slurmd")
                self._slurm_manager.restart_slurm_component()
                sleep(2 + i)

        if self._slurm_manager.slurm_is_active():
            return True
        else:
            self.unit.status = BlockedStatus("Cannot start slurmd")
            return False

    def _set_slurmctld_available(self, flag: bool):
        """Change stored value for slurmctld availability."""
        self._stored.slurmctld_available = flag

    def _set_slurmctld_started(self, flag: bool):
        """Change stored value for slurmctld started."""
        self._stored.slurmctld_started = flag

    def _on_slurmctld_available(self, event):
        """Get data from slurmctld and send inventory."""
        if not self._stored.slurm_installed:
            event.defer()
            return

        logger.debug(
            '#### Slurmctld available - setting overrides for configless')
        # get slurmctld host:port from relation and override systemd services
        host = self._slurmd.slurmctld_hostname
        port = self._slurmd.slurmctld_port
        self._slurm_manager.create_configless_systemd_override(host, port)
        self._slurm_manager.daemon_reload()

        self._write_munge_key_and_restart_munge()

        self._set_slurmctld_available(True)
        self._on_set_partition_info_on_app_relation_data(event)
        self._check_status()

        # check etcd for hostnames
        self.on.check_etcd.emit()

    def _on_check_etcd(self, event):
        """Check if node is accounted for.

        Check if slurmctld accounted for this node's inventory for the first
        time, if so, emit slurmctld_started event, so the node can start the
        daemon.
        """

        host = self._slurmd.slurmctld_address
        port = self._slurmd.etcd_port
        logger.debug(f"## Connecting to etcd3 in {host}:{port}")
        client = Etcd3Client(host=host, port=port, api_path="/v3/")

        logger.debug("## Querying etcd3 for node list")
        try:
            v = client.get(key="all_nodes")
            logger.debug(f"## Got: {v}")
        except Exception as e:
            logger.error(
                f"## Unable to connect to {host} to get list of nodes: {e}")
            event.defer()
            return

        node_accounted = False
        if v:
            hostnames = json.loads(v[0])
            logger.debug(f"### etcd3 node list: {hostnames}")
            if self.hostname in hostnames:
                self.on.slurmctld_started.emit()
                node_accounted = True

        if not node_accounted:
            logger.debug("## Node not accounted for. Deferring.")
            event.defer()

    def _on_slurmctld_unavailable(self, event):
        logger.debug("## Slurmctld unavailable")
        self._set_slurmctld_available(False)
        self._set_slurmctld_started(False)
        self._slurm_manager.slurm_systemctl('stop')
        self._check_status()

    def _on_slurmctld_started(self, event):
        """Set flag to True and emit slurmd_start event."""
        self._set_slurmctld_started(True)
        self.on.slurmd_start.emit()

    def _on_slurmd_start(self, event):
        if not self._check_status():
            event.defer()
            return

        # only set up fluentbit if we have a relation to it
        if self._fluentbit._relation is not None:
            self._configure_fluentbit()

        # at this point, we have slurm installed, munge configured, and we know
        # slurmctld accounted for this node. It should be safe to start slurmd
        if self.ensure_slurmd_starts():
            logger.debug("## slurmctld started and slurmd is running")
        else:
            event.defer()
        self._check_status()

    def _on_config_changed(self, event):
        """Handle charm configuration changes."""
        if self.model.unit.is_leader():
            logger.debug("## slurmd config changed - leader")
            self._on_set_partition_info_on_app_relation_data(event)

        nhc_conf = self.model.config.get('nhc-conf')
        if nhc_conf:
            if nhc_conf != self._stored.nhc_conf:
                self._stored.nhc_conf = nhc_conf
                self._slurm_manager.render_nhc_config(nhc_conf)

    def get_partition_name(self) -> str:
        """Return the partition_name in the slurmd relation."""
        # Determine if a user-supplied partition-name config exists, if so
        # ensure the partition_name is consistent with the supplied config.
        # If no partition name has been specified then generate one.
        partition_name = self._slurmd_peer.partition_name
        partition_name_from_config = self.config.get("partition-name")
        if partition_name:
            if partition_name_from_config:
                partition_name_from_config = partition_name_from_config.replace(
                    ' ', '-')
                if partition_name != partition_name_from_config:
                    self._set_partition_name(partition_name_from_config)
                    partition_name = partition_name_from_config
                else:
                    logger.debug("Partition name unchanged.")
            else:
                logger.debug("Partition name unchanged.")
        else:
            partition_name = f"osd-{self.app.name}"
            logger.debug(f"Partition name: {partition_name}")
            self._set_partition_name(partition_name)

        return partition_name

    def _set_partition_name(self, name: str):
        """Set the partition_name in the slurmd relation."""
        if self.model.unit.is_leader():
            self._slurmd_peer.partition_name = name

    def _write_munge_key_and_restart_munge(self):
        logger.debug('#### slurmd charm - writting munge key')

        self._slurm_manager.configure_munge_key(
            self._slurmd.get_stored_munge_key())

        if self._slurm_manager.restart_munged():
            logger.debug("## Munge restarted succesfully")
        else:
            logger.error("## Unable to restart munge")

    def _on_version_action(self, event):
        """Return version of installed components.

        - Slurm
        - munge
        - NHC
        - infiniband
        """
        version = {}
        version['slurm'] = self._slurm_manager.slurm_version()
        version['munge'] = self._slurm_manager.munge_version()
        version['nhc'] = self._slurm_manager.nhc_version()
        version['infiniband'] = self._slurm_manager.infiniband_version()

        event.set_results(version)

    def _on_node_configured_action(self, event):
        """Remove node from DownNodes."""
        # trigger reconfig
        self._slurmd.configure_new_node()
        logger.debug('### This node is not new anymore')

    def _on_get_node_inventory_action(self, event):
        """Return node inventory."""
        inventory = self._slurmd.node_inventory
        event.set_results({'inventory': inventory})

    def get_infiniband_repo(self, event):
        """Return the currently used infiniband repository."""
        repo = self._slurm_manager.infiniband.repository
        event.set_results({'infiniband-repo': repo})

    def set_infiniband_repo(self, event):
        """Set the infiniband repository."""
        repo = event.params["repo"]
        logger.debug(f"#### setting custom infiniband repo: {repo}")
        repo = base64.b64decode(repo).decode()
        self._slurm_manager.infiniband.repository = repo

    def install_infiniband(self, event):
        """Install infiniband."""
        logger.debug("#### Installing Infiniband")
        self._slurm_manager.infiniband.install()
        event.set_results({'installation': 'Successfull. Please reboot node.'})
        self.unit.status = BlockedStatus("Need reboot for Infiniband")

    def uninstall_infiniband(self, event):
        """Install infiniband."""
        logger.debug("#### Uninstalling Infiniband")
        self._slurm_manager.infiniband.uninstall()

    def start_infiniband(self, event):
        """Start Infiniband systemd service."""
        logger.debug("#### Starting Infiniband service")
        self._slurm_manager.infiniband.start()

    def enable_infiniband(self, event):
        """Enable Infiniband systemd service."""
        logger.debug("#### Enabling Infiniband service")
        self._slurm_manager.infiniband.enable()

    def stop_infiniband(self, event):
        """Stop Infiniband systemd service."""
        logger.debug("#### Stoping Infiniband service")
        self._slurm_manager.infiniband.stop()

    def is_active_infiniband(self, event):
        """Check if Infiniband systemd service is arctive."""
        status = self._slurm_manager.infiniband.is_active()
        logger.debug(f"#### Infiniband service is-active: {status}")
        event.set_results({'infiniband-is-active': status})

    def nvidia_repo(self, event):
        """Set or get the used nvidia repository."""
        repo = event.params.get("repo", None)
        if repo:
            self._slurm_manager.nvidia.repository = base64.b64decode(
                repo).decode()

        event.set_results(
            {'nvidia-repo': self._slurm_manager.nvidia.repository})

    def nvidia_package(self, event):
        """Set or get the used nvidia package."""
        package = event.params.get("package", None)
        if package or package == "":
            # user supplied a package name -> store it
            self._slurm_manager.nvidia.package = package

        event.set_results(
            {'nvidia-package': self._slurm_manager.nvidia.package})

    def nvidia_install(self, event):
        """Install nvidia drivers."""
        logger.debug("#### Installing nvidia drivers: %s",
                     self._slurm_manager.nvidia.package)
        self._slurm_manager.nvidia.install()
        event.set_results({'installation': 'Successfull. Please reboot node.'})
        self.unit.status = BlockedStatus("Need reboot for nvidia")

    def _on_show_nhc_config(self, event):
        """Show current nhc.conf."""
        nhc_conf = self._slurm_manager.get_nhc_config()
        event.set_results({"nhc.conf": nhc_conf})

    def _on_set_partition_info_on_app_relation_data(self, event):
        """Set the slurm partition info on the application relation data."""
        # Only the leader can set data on the relation.
        if self.model.unit.is_leader():
            # If the relation with slurmctld exists then set our
            # partition info on the application relation data.
            # This handler shouldn't fire if the relation isn't made,
            # but add this extra check here just incase.
            if self._slurmd.is_joined:
                partition = self._assemble_partition()
                if partition:
                    self._slurmd.set_partition_info_on_app_relation_data(
                        partition)
                else:
                    event.defer()
            else:
                event.defer()

    def _assemble_partition(self):
        """Assemble the partition info."""
        partition_name = self.get_partition_name()
        partition_config = self.config.get("partition-config")
        partition_state = self.config.get("partition-state")
        logger.debug(f"## partition_name: {partition_name}")

        return {
            "partition_name": partition_name,
            "partition_state": partition_state,
            "partition_config": partition_config,
        }

    @property
    def hostname(self) -> str:
        """Return the hostname."""
        return self._slurm_manager.hostname

    @property
    def cluster_name(self) -> str:
        """Return the cluster-name."""
        return self._stored.cluster_name

    @cluster_name.setter
    def cluster_name(self, name: str):
        """Set the cluster-name."""
        self._stored.cluster_name = name
Exemplo n.º 4
0
class SlurmrestdCharm(CharmBase):
    """Operator charm responsible for lifecycle operations for slurmrestd."""

    _stored = StoredState()

    def __init__(self, *args):
        """Initialize charm and configure states and events to observe."""
        super().__init__(*args)

        self._stored.set_default(slurm_installed=False,
                                 slurmrestd_restarted=False,
                                 cluster_name=str())

        self._slurm_manager = SlurmManager(self, "slurmrestd")
        self._slurmrestd = SlurmrestdRequires(self, 'slurmrestd')
        self._fluentbit = FluentbitClient(self, "fluentbit")

        event_handler_bindings = {
            self.on.install:
            self._on_install,
            self.on.upgrade_charm:
            self._on_upgrade,
            self.on.update_status:
            self._on_update_status,
            self._slurmrestd.on.config_available:
            self._on_check_status_and_write_config,
            self._slurmrestd.on.config_unavailable:
            self._on_config_unavailable,
            self._slurmrestd.on.munge_key_available:
            self._on_configure_munge_key,
            self._slurmrestd.on.jwt_rsa_available:
            self._on_configure_jwt_rsa,
            self._slurmrestd.on.restart_slurmrestd:
            self._on_restart_slurmrestd,
            # fluentbit
            self.on["fluentbit"].relation_created:
            self._on_fluentbit_relation_created,
        }
        for event, handler in event_handler_bindings.items():
            self.framework.observe(event, handler)

    def _on_install(self, event):
        """Perform installation operations for slurmrestd."""
        self.unit.set_workload_version(Path("version").read_text().strip())

        self.unit.status = WaitingStatus("Installing slurmrestd")

        custom_repo = self.config.get("custom-slurm-repo")
        successful_installation = self._slurm_manager.install(custom_repo)

        if successful_installation:
            self.unit.status = ActiveStatus("slurmrestd installed")
            self._stored.slurm_installed = True

            self._slurm_manager.start_munged()
        else:
            self.unit.status = BlockedStatus("Error installing slurmrestd")
            event.defer()

        self._check_status()

    def _on_fluentbit_relation_created(self, event):
        """Set up Fluentbit log forwarding."""
        self._configure_fluentbit()

    def _configure_fluentbit(self):
        logger.debug("## Configuring fluentbit")
        cfg = list()
        cfg.extend(self._slurm_manager.fluentbit_config_nhc)
        cfg.extend(self._slurm_manager.fluentbit_config_slurm)
        self._fluentbit.configure(cfg)

    def _on_upgrade(self, event):
        """Perform upgrade operations."""
        self.unit.set_workload_version(Path("version").read_text().strip())
        self._check_status()

    def _on_update_status(self, event):
        """Handle update status."""
        self._check_status()

    def _on_config_unavailable(self, event):
        """Handle the config unavailable due to relation broken."""
        # when the config becomes unavailable, we have to set this flag to False,
        # so the next time the config becoms avaiable, the daemon restarts
        self._stored.slurmrestd_restarted = False
        self._check_status()

    def _on_restart_slurmrestd(self, event):
        """Resart the slurmrestd component."""
        logger.debug("## _on_restart_slurmrestd")

        if not self._check_status():
            event.defer()
            return

        self._slurm_manager.restart_slurm_component()
        self._stored.slurmrestd_restarted = True

    def _on_configure_munge_key(self, event):
        """Configure the munge key.

        1) Get the munge key from the stored state of the slurmrestd relation
        2) Write the munge key to the munge key path and chmod
        3) Restart munged
        """
        if not self._stored.slurm_installed:
            event.defer()
            return

        logger.debug("## configuring new munge key")
        munge_key = self._slurmrestd.get_stored_munge_key()
        self._slurm_manager.configure_munge_key(munge_key)
        self._slurm_manager.restart_munged()

    def _on_configure_jwt_rsa(self, event):
        if not self._stored.slurm_installed:
            event.defer()
            return

        logger.debug("## configuring new jwt rsa")
        jwt_rsa = self._slurmrestd.get_stored_jwt_rsa()
        self._slurm_manager.configure_jwt_rsa(jwt_rsa)

    def _check_status(self) -> bool:
        if self._slurm_manager.needs_reboot:
            self.unit.status = BlockedStatus("Machine needs reboot")
            return False

        if not self._stored.slurm_installed:
            self.unit.status = BlockedStatus("Error installing slurmrestd")
            return False

        # Check and see if we have what we need for operation.
        if not self._slurmrestd.is_joined:
            self.unit.status = BlockedStatus("Need relations: slurmctld")
            return False

        slurmctld_available = (self._slurmrestd.get_stored_munge_key()
                               and self._slurmrestd.get_stored_jwt_rsa()
                               and self._slurmrestd.get_stored_slurm_config())
        if not slurmctld_available:
            self.unit.status = WaitingStatus("Waiting on: slurmctld")
            return True

        self.unit.status = ActiveStatus("slurmrestd available")

        return True

    def _on_check_status_and_write_config(self, event):
        if not self._check_status():
            event.defer()
            return

        slurm_config = self._slurmrestd.get_stored_slurm_config()
        if slurm_config:
            self._slurm_manager.render_slurm_configs(slurm_config)
            self.cluster_name = slurm_config.get("cluster_name")
        else:
            logger.error(f"## weird slurmconfig: {slurm_config}")

        # Only restart slurmrestd the first time the node is brought up.
        if not self._stored.slurmrestd_restarted:
            self._on_restart_slurmrestd(event)

        if self._fluentbit._relation is not None:
            self._configure_fluentbit()

    @property
    def cluster_name(self) -> str:
        """Return the cluster-name."""
        return self._stored.cluster_name

    @cluster_name.setter
    def cluster_name(self, name: str):
        """Set the cluster-name."""
        self._stored.cluster_name = name