Exemplo n.º 1
0
    def db_update_one(self, filter, operations, after=True, col="active"):
        """
        Update the data into the active db

        :param filter: Which instance to update, e.g., {"id": "xxx"}
        :param operations: data to update to db, e.g., {"$set": {}}
        :param after: return AFTER or BEFORE
        :param col: collection to operate on
        :return: The updated host json dict
        """
        state = CLUSTER_STATE.active.name if col == "active" \
            else CLUSTER_STATE.released.name
        filter.update({"state": state})
        logger.debug("filter {} operations {}".format(filter, operations))
        try:
            cluster_found = ClusterModel.Query.get(id=filter.get("id"))
            cluster = ClusterModel(objectId=cluster_found.objectId,
                                   **operations)
            cluster.save()
            if after:
                cluster_found = ClusterModel.Query.get(id=filter.get("id"))
        except Exception as exc:
            logger.info("exception {}".format(exc.message))
            return None
        return cluster_found
Exemplo n.º 2
0
    def apply_cluster(self, user_id, condition={}, allow_multiple=False):
        """ Apply a cluster for a user

        :param user_id: which user will apply the cluster
        :param condition: the filter to select
        :param allow_multiple: Allow multiple chain for each tenant
        :return: serialized cluster or None
        """
        if not allow_multiple:  # check if already having one
            filt = {"user_id": user_id, "release_ts": "", "health": "OK"}
            filt.update(condition)
            c = self.col_active.find_one(filt)
            if c:
                logger.debug("Already assigned cluster for " + user_id)
                return self._schema(c)
        logger.debug("Try find available cluster for " + user_id)
        clusters = ClusterModel. \
            Query.filter(user_id="",
                         network_type__regex="(?i)%s" %
                                             condition.get("apply_type",
                                                           "fabric"),
                         size=condition.get("size", 0),
                         status=NETWORK_STATUS_RUNNING,
                         health="OK").limit(1)
        cluster = clusters[0] if len(clusters) > 0 else None
        if cluster:
            update_cluster = ClusterModel(objectId=cluster.objectId,
                                          user_id=user_id,
                                          apply_ts=datetime.datetime.now())
            update_cluster.save()
            logger.info("Now have cluster {} at {} for user {}".format(
                cluster.id, cluster.host.id, user_id))
            return self._schema(cluster)
        logger.warning("Not find matched available cluster for " + user_id)
        return {}
Exemplo n.º 3
0
    def create(self, name, host_id, config, start_port=0, user_id=""):
        """ Create a cluster based on given data

        TODO: maybe need other id generation mechanism
        Args:

            name: name of the cluster
            host_id: id of the host URL
            config: network configuration
            start_port: first service port for cluster, will generate
             if not given
            user_id: user_id of the cluster if start to be applied

        return: Id of the created cluster or None
        """
        logger.info("Create cluster {}, host_id={}, config={}, start_port={}, "
                    "user_id={}".format(name, host_id, config.get_data(),
                                        start_port, user_id))

        worker = self.host_handler.get_active_host_by_id(host_id)
        if not worker:
            logger.error("Cannot find available host to create new network")
            return None

        if ClusterModel.objects(host=worker).count() >= worker.capacity:
            logger.warning("host {} is already full".format(host_id))
            return None

        peer_num = int(config.get_data().get("size", 4))
        ca_num = 2 if peer_num > 1 else 1

        cid = uuid4().hex
        mapped_ports, peer_ports, ca_ports, orderer_ports = \
            self.gen_ports_mapping(peer_num, ca_num, start_port, host_id)
        if not mapped_ports:
            logger.error("mapped_ports={}".format(mapped_ports))
            return None

        env_mapped_ports = dict(
            ((k + '_port').upper(), str(v)) for (k, v) in mapped_ports.items())

        network_type = config['network_type']
        net = {  # net is a blockchain network instance
            'id': cid,
            'name': name,
            'user_id': user_id,
            'worker_api': worker.worker_api,
            'network_type': network_type,  # e.g., fabric-1.0
            'env': env_mapped_ports,
            'status': NETWORK_STATUS_CREATING,
            'mapped_ports': mapped_ports,
            'service_url': {},  # e.g., {rest: xxx:7050, grpc: xxx:7051}
        }
        net.update(config.get_data())

        # try to start one cluster at the host
        cluster = ClusterModel(**net)
        cluster.host = worker
        cluster.save()
        # start cluster creation asynchronously for better user experience.
        t = Thread(target=self._create_cluster,
                   args=(cluster, cid, mapped_ports, worker, config, user_id,
                         peer_ports, ca_ports, orderer_ports))
        t.start()
        return cid
Exemplo n.º 4
0
    def create(self, name, host_id, config, start_port=0,
               user_id=SYS_USER):
        """ Create a cluster based on given data

        TODO: maybe need other id generation mechanism
        Args:

            name: name of the cluster
            host_id: id of the host URL
            config: network configuration
            start_port: first service port for cluster, will generate
             if not given
            user_id: user_id of the cluster if start to be applied

        return: Id of the created cluster or None
        """
        logger.info("Create cluster {}, host_id={}, config={}, start_port={}, "
                    "user_id={}".format(name, host_id, config.get_data(),
                                        start_port, user_id))
        size = int(config.get_data().get("size", 4))

        worker = self.host_handler.get_active_host_by_id(host_id)
        if not worker:
            return None

        if worker.type == WORKER_TYPE_VSPHERE:
            vm_params = self.host_handler.get_vm_params_by_id(host_id)
            docker_daemon = vm_params.get(VMIP) + ":2375"
            worker.update({"worker_api": "tcp://" + docker_daemon})
            logger.info(worker)

        if ClusterModel.objects(host=worker).count() >= worker.capacity:
            logger.warning("host {} is already full".format(host_id))
            return None

        worker_api = worker.worker_api
        logger.debug("worker_api={}".format(worker_api))

        ca_num = 1
        request_port_num = \
            len(ORDERER_SERVICE_PORTS.items()) + \
            len(ca_service_ports.items()) * ca_num + \
            size * (len(peer_service_ports.items()))
        logger.debug("request port number {}".format(request_port_num))

        if start_port <= 0:
            ports = self.find_free_start_ports(host_id, request_port_num)
            if not ports:
                logger.warning("No free port is found")
                return None
        else:
            ports = [i for i in
                     range(start_port, start_port + request_port_num)]

        logger.debug("ports {}".format(ports))
        peers_ports, ca_mapped_ports, orderer_service_ports,\
            explorer_mapped_port, mapped_ports = \
            {}, {}, {}, {}, {}

        if size > 1:
            org_num_list = [1, 2]
            peer_num_end = int(size / 2)
        else:
            org_num_list = [1]
            peer_num_end = 1

        logger.debug("org num list {} peer_num_end {}".
                     format(org_num_list, peer_num_end))

        pos = 0
        for org_num in org_num_list:
            for peer_num in range(0, peer_num_end):
                for k, v in peer_service_ports.items():
                    peers_ports[k.format(peer_num, org_num)] = ports[pos]
                    logger.debug("pos {}".format(pos))
                    pos += 1
        # for org_num in org_num_list:
        for k, v in ca_service_ports.items():
            ca_mapped_ports[k.format(1)] = ports[pos]
            logger.debug("pos={}".format(pos))
            pos += 1
        for k, v in ORDERER_SERVICE_PORTS.items():
            orderer_service_ports[k] = ports[pos]
            logger.debug("pos={}".format(pos))
            pos += 1

        for k, v in EXPLORER_PORT.items():
            explorer_mapped_port[k] = \
                v - PEER_SERVICE_PORTS['rest'] + start_port

        mapped_ports.update(peers_ports)
        mapped_ports.update(ca_mapped_ports)
        mapped_ports.update(orderer_service_ports)
        mapped_ports.update(explorer_mapped_port)
        env_mapped_ports = dict(((k + '_port').upper(),
                                 str(v)) for (k, v) in mapped_ports.items())

        network_type = config['network_type']
        cid = uuid4().hex
        net = {  # net is a blockchain network instance
            'id': cid,
            'name': name,
            'user_id': user_id or SYS_CREATOR,  # avoid applied
            'worker_api': worker_api,
            'network_type': network_type,  # e.g., fabric-1.0
            'env': env_mapped_ports
        }
        if network_type == NETWORK_TYPE_FABRIC_V1:  # TODO: fabric v1.0
            net.update({
                'mapped_ports': mapped_ports,
                'service_url': {},  # e.g., {rest: xxx:7050, grpc: xxx:7051}
            })
        elif network_type == NETWORK_TYPE_FABRIC_PRE_V1:  # fabric v0.6
            net.update({
                'mapped_ports': mapped_ports,
                'service_url': {},  # e.g., {rest: xxx:7050, grpc: xxx:7051}
            })

        net.update(config.get_data())

        # try to start one cluster at the host
        cluster = ClusterModel(**net)
        cluster.host = worker
        cluster.save()

        # from now on, we should be safe

        # start compose project, failed then clean and return
        logger.debug("Start compose project with name={}".format(cid))
        containers = self.cluster_agents[worker.type] \
            .create(cid, mapped_ports, self.host_handler.schema(worker),
                    config=config, user_id=user_id)
        if not containers:
            logger.warning("failed to start cluster={}, then delete"
                           .format(name))
            self.delete(id=cid, record=False, forced=True)
            return None
        for k, v in containers.items():
            container = Container(id=v, name=k, cluster=cluster)
            container.save()

        access_peer, access_ca = '', ''
        if network_type == NETWORK_TYPE_FABRIC_V1:  # fabric v1.0
            access_peer = 'peer0.org1.example.com'
            access_ca = 'ca.example.com'
            # access_explorer = 'explorer'
        elif network_type == NETWORK_TYPE_FABRIC_PRE_V1:  # fabric v0.6
            access_peer = 'vp0'
            access_ca = 'membersrvc'

        peer_host_ip = self._get_service_ip(cid, access_peer)
        ca_host_ip = self._get_service_ip(cid, access_ca)
        # explorer_host_ip = self._get_service_ip(cid, access_explorer)
        # no api_url, then clean and return
        if not peer_host_ip:  # not valid api_url
            logger.error("Error to find peer host url, cleanup")
            self.delete(id=cid, record=False, forced=True)
            return None

        service_urls = {}
        for k, v in peers_ports.items():
            service_urls[k] = "{}:{}".format(peer_host_ip, v)

        for k, v in ca_mapped_ports.items():
            service_urls[k] = "{}:{}".format(ca_host_ip, v)

        for k, v in orderer_service_ports.items():
            service_urls[k] = "{}:{}".format(ca_host_ip, v)

        for k, v in service_urls.items():
            service_port = ServicePort(name=k, ip=v.split(":")[0],
                                       port=int(v.split(":")[1]),
                                       cluster=cluster)
            service_port.save()

        # update api_url, container, and user_id field
        self.db_update_one(
            {"id": cid},
            {
                "user_id": user_id,
                'api_url': service_urls.get('rest', ""),
                'service_url': service_urls
            }
        )

        def check_health_work(cid):
            time.sleep(5)
            self.refresh_health(cid)

        t = Thread(target=check_health_work, args=(cid,))
        t.start()

        logger.info("Create cluster OK, id={}".format(cid))
        return cid
Exemplo n.º 5
0
    def create(self, name, host_id, config, user, start_port=0,
               ):
        """ Create a cluster based on given data

        TODO: maybe need other id generation mechanism
        Args:

            name: name of the cluster
            host_id: id of the host URL
            domain: domain of the cluster
            channel: channel of the cluster
            config: network configuration
            start_port: first service port for cluster, will generate
             if not given
            user: user_id of the cluster if start to be applied

        return: Id of the created cluster or None
        """
        logger.info("Create cluster {}, host_id={}, config={}, start_port={}, "
                    "user_id={}".format(name, host_id, config,
                                        start_port, user))

        worker = self.host_handler.get_active_host_by_id(host_id)
        if not worker:
            logger.error("Cannot find available host to create new network")
            return None
        cid = uuid4().hex

        orderer_services = []
        ca_services = []
        peer_services = []

        orderer_org = config.get('orderer_org')
        orderer_org_name = orderer_org.get('name')
        orderers = orderer_org.get('orderers')
        for orderer in orderers:
            for k in orderer_service_ports.keys():
                orderer_services.append(k.format(orderer, orderer_org_name))

        for peer_org in config.peer_orgs:
            ca_name = peer_org.get('ca')
            org_name = peer_org.get('name')
            peers = peer_org.get('peers')

            for j in ca_service_ports.keys():
                ca_services.append(j.format(ca_name, org_name))
            for peer in peers:
                for k in peer_service_ports.keys():
                    peer_services.append(k.format(peer, org_name))

        mapped_ports, peer_ports, ca_ports, orderer_ports = \
            self.gen_ports_mapping(orderer_services, ca_services, peer_services, start_port, host_id)

        if not mapped_ports:
            logger.error("mapped_ports={}".format(mapped_ports))
            return None
        worker.update(add_to_set__port_used=list(mapped_ports.values()))
        env_mapped_ports = dict(((k + '_port').upper(), str(v))
                                for (k, v) in mapped_ports.items())

        network_type = config['network_type']
        consensus_plugin = config['consensus_plugin']
        service_url = {}
        host_ip = worker.worker_api.split(':')[1][2:]
        for k, v in mapped_ports.items():
            service_url[k] = "{}:{}".format(url_map[host_ip], v)

        create_time = datetime.datetime.now()
        net = {
            'id': cid,
            'name': name,
            'host': worker,
            'domain': config.get('domain'),
            'network_type': network_type,
            'consensus_plugin': consensus_plugin,
            'ports': list(mapped_ports.values()),
            'env': env_mapped_ports,
            'status': NETWORK_STATUS_RUNNING,
            # 'status': NETWORK_STATUS_CREATING,
            # 'mapped_ports': mapped_ports,
            'create_ts': create_time,
            'due_time': create_time + datetime.timedelta(days=BLOCK_CHAIN_PROBATION_PERIOD),
            'user': user,
            'service_url': service_url,  # e.g., {rest: xxx:7050, grpc: xxx:7051}
        }

        # try to start one cluster at the host
        cluster = ClusterModel(**net)
        cluster.host = worker
        cluster.save()

        channel = ChannelModel(
            name=config.channel,
            alias='channel1',
            cluster=cluster
        )
        channel.save()

        orderer_org = OrgModel(
            name=orderer_org_name,
            alias='orderer',
            domain=config.orderer_org.get('domain'),
            org_type='orderer',
            cluster=cluster
        )
        orderer_org.save()
        start = 0
        for orderer in config.orderer_org.get('orderers'):
            orderer = Node(
                name=orderer,
                alias='orderer{}'.format(start if start else ''),
                ip=url_map[host_ip],
                org=orderer_org,
                node_type='orderer',
                ports={'orderer': mapped_ports.get('{}_{}'.format(orderer, orderer_org.name))}
            )
            orderer.save()
            channel.update(add_to_set__orderers=[orderer])
            start += 1

        org_start = 0
        for peer_org in config.peer_orgs:
            peer_org_name = peer_org.get('name')
            _peer_org = OrgModel(
                name=peer_org_name,
                alias='org{}'.format(org_start+1),
                domain=peer_org.get('domain'),
                org_type='peer',
                # users=[user],
                cluster=cluster
            )
            _peer_org.save()
            channel.update(add_to_set__orgs=[_peer_org])
            org_start += 1
            peer_start = 0
            for peer in peer_org.get('peers'):
                peer = Node(
                    name=peer,
                    alias='peer{}'.format(peer_start),
                    ip=url_map[host_ip],
                    org=_peer_org,
                    node_type='peer',
                    ports={
                        'grpc': mapped_ports.get("{}_{}_grpc".format(peer, _peer_org.name)),
                        'event': mapped_ports.get("{}_{}_event".format(peer, _peer_org.name))
                    }
                )
                peer.save()
                peer_start += 1

            ca_name = peer_org.get('ca')
            ca = Node(
                name=ca_name,
                alias='ca',
                ip=url_map[host_ip],
                node_type='ca',
                org=_peer_org,
                ports={'ecap': mapped_ports.get('{}_{}_ecap'.format(ca_name, _peer_org.name))}
            )
            ca.save()

        if self._create_cluster(cluster, cid, mapped_ports, worker, config, user, peer_ports, ca_ports, orderer_ports):
            return cid
        else:
            cluster.delete()
            return False
Exemplo n.º 6
0
    def create(self, name, host_id, config, start_port=0,
               user_id=""):
        """ Create a cluster based on given data

        TODO: maybe need other id generation mechanism
        Args:

            name: name of the cluster
            host_id: id of the host URL
            config: network configuration
            start_port: first service port for cluster, will generate
             if not given
            user_id: user_id of the cluster if start to be applied

        return: Id of the created cluster or None
        """
        logger.info("Create cluster {}, host_id={}, config={}, start_port={}, "
                    "user_id={}".format(name, host_id, config.get_data(),
                                        start_port, user_id))

        worker = self.host_handler.get_active_host_by_id(host_id)
        if not worker:
            logger.error("Cannot find available host to create new network")
            return None

        if ClusterModel.objects(host=worker).count() >= worker.capacity:
            logger.warning("host {} is already full".format(host_id))
            return None

        if worker.type == WORKER_TYPE_VSPHERE:
            vm_params = self.host_handler.get_vm_params_by_id(host_id)
            docker_daemon = vm_params.get(VMIP) + ":2375"
            worker.update({"worker_api": "tcp://" + docker_daemon})
            logger.info(worker)

        peer_num = int(config.get_data().get("size", 4))
        ca_num = 2 if peer_num > 1 else 1

        cid = uuid4().hex
        mapped_ports, peer_ports, ca_ports, orderer_ports, explorer_ports = \
            self.gen_ports_mapping(peer_num, ca_num, start_port, host_id)
        if not mapped_ports:
            logger.error("mapped_ports={}".format(mapped_ports))
            return None

        env_mapped_ports = dict(((k + '_port').upper(),
                                 str(v)) for (k, v) in mapped_ports.items())

        network_type = config['network_type']
        net = {  # net is a blockchain network instance
            'id': cid,
            'name': name,
            'user_id': user_id,
            'worker_api': worker.worker_api,
            'network_type': network_type,  # e.g., fabric-1.0
            'env': env_mapped_ports,
            'status': NETWORK_STATUS_CREATING,
            'mapped_ports': mapped_ports,
            'service_url': {},  # e.g., {rest: xxx:7050, grpc: xxx:7051}
        }
        net.update(config.get_data())

        # try to start one cluster at the host
        cluster = ClusterModel(**net)
        cluster.host = worker
        cluster.save()

        # start compose project, failed then clean and return
        logger.debug("Start compose project with name={}".format(cid))
        containers = self.cluster_agents[worker.type] \
            .create(cid, mapped_ports, self.host_handler.schema(worker),
                    config=config, user_id=user_id)
        if not containers:
            logger.warning("failed to start cluster={}, then delete"
                           .format(name))
            self.delete(id=cid, record=False, forced=True)
            return None

        # creation done, update the container table in db
        for k, v in containers.items():
            container = Container(id=v, name=k, cluster=cluster)
            container.save()

        # service urls can only be calculated after service is created
        service_urls = self.gen_service_urls(cid, peer_ports, ca_ports,
                                             orderer_ports, explorer_ports)
        # update the service port table in db
        for k, v in service_urls.items():
            service_port = ServicePort(name=k, ip=v.split(":")[0],
                                       port=int(v.split(":")[1]),
                                       cluster=cluster)
            service_port.save()

        # update api_url, container, user_id and status
        self.db_update_one(
            {"id": cid},
            {
                "user_id": user_id,
                'api_url': service_urls.get('rest', ""),
                'service_url': service_urls,
                'status': NETWORK_STATUS_RUNNING
            }
        )

        def check_health_work(cid):
            time.sleep(5)
            self.refresh_health(cid)
        t = Thread(target=check_health_work, args=(cid,))
        t.start()

        host = HostModel.objects.get(id=host_id)
        host.update(add_to_set__clusters=[cid])
        logger.info("Create cluster OK, id={}".format(cid))
        return cid
Exemplo n.º 7
0
    def delete(self, id, record=False, forced=False):
        """ Delete a cluster instance

        Clean containers, remove db entry. Only operate on active host.

        :param id: id of the cluster to delete
        :param record: Whether to record into the released collections
        :param forced: Whether to removing user-using cluster, for release
        :return:
        """
        logger.debug("Delete cluster: id={}, forced={}".format(id, forced))

        try:
            cluster = ClusterModel.Query.get(id=id)
        except Exception:
            logger.warning("Cannot find cluster {}".format(id))
            return False

        c = self.db_update_one({"id": id}, {"status": NETWORK_STATUS_DELETING},
                               after=False)
        # we are safe from occasional applying now
        user_id = c.user_id  # original user_id
        if not forced and user_id and user_id != "":
            # not forced, and chain is used by normal user, then no process
            logger.warning("Cannot delete cluster {} by "
                           "user {}".format(id, user_id))
            cluster = ClusterModel(objectId=cluster.objectId, user_id=user_id)
            cluster.save()
            return False
        else:
            cluster = ClusterModel(objectId=cluster.objectId,
                                   status=NETWORK_STATUS_DELETING)
            cluster.save()

        host_id, worker_api, network_type, consensus_plugin, cluster_size = \
            str(c.host.id), c.worker_api, \
            c.network_type if c.network_type else NETWORK_TYPE_FABRIC_PRE_V1, \
            c.consensus_plugin if c.consensus_plugin else \
            CONSENSUS_PLUGINS_FABRIC_V1[0], \
            c.size if c.size else NETWORK_SIZE_FABRIC_PRE_V1[0]

        # port = api_url.split(":")[-1] or CLUSTER_PORT_START
        h = self.host_handler.get_active_host_by_id(host_id)
        if not h:
            logger.warning("Host {} inactive".format(host_id))
            cluster = ClusterModel(objectId=cluster.objectId, user_id=user_id)
            cluster.save()
            return False

        if network_type == NETWORK_TYPE_FABRIC_V1:
            config = FabricV1NetworkConfig(consensus_plugin=consensus_plugin,
                                           size=cluster_size)
        elif network_type == NETWORK_TYPE_FABRIC_V1_1:
            config = FabricV1NetworkConfig(consensus_plugin=consensus_plugin,
                                           size=cluster_size)
            config.network_type = NETWORK_TYPE_FABRIC_V1_1
        elif network_type == NETWORK_TYPE_FABRIC_V1_2:
            config = FabricV1NetworkConfig(consensus_plugin=consensus_plugin,
                                           size=cluster_size)
            config.network_type = NETWORK_TYPE_FABRIC_V1_2
        elif network_type == NETWORK_TYPE_FABRIC_PRE_V1:
            config = FabricPreNetworkConfig(consensus_plugin=consensus_plugin,
                                            consensus_mode='',
                                            size=cluster_size)
        else:
            return False

        config.update({"env": c.env})

        delete_result = self.cluster_agents[h.type].delete(
            id, worker_api, config)
        if not delete_result:
            logger.warning("Error to run compose clean work")
            cluster = ClusterModel(objectId=cluster.objectId, user_id=user_id)
            cluster.save()
            return False

        # remove cluster info from host
        logger.info("remove cluster from host, cluster:{}".format(id))
        # h.update(pull__clusters=id)
        # h = HostModel(objectId=h.objectId)

        c.delete()
        service_ports = ServicePort.Query.filter(cluster=c.as_pointer)
        batcher = ParseBatcher()
        batcher.batch_delete(service_ports)
        containers = Container.Query.filter(cluster=c.as_pointer)
        batcher.batch_delete(containers)
        return True