path: root/yardstick/benchmark/contexts/standalone/ovs_dpdk.py

# Copyright (c) 2016-2017 Intel Corporation
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
#      http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.

from __future__ import absolute_import
import os
import logging
import collections
import time

from collections import OrderedDict

from yardstick import ssh
from yardstick.network_services.utils import get_nsb_option
from yardstick.network_services.utils import provision_tool
from yardstick.benchmark.contexts.base import Context
from yardstick.benchmark.contexts.standalone.model import Libvirt
from yardstick.benchmark.contexts.standalone.model import StandaloneContextHelper
from yardstick.benchmark.contexts.standalone.model import Server
from yardstick.benchmark.contexts.standalone.model import OvsDeploy
from yardstick.network_services.utils import PciAddress

LOG = logging.getLogger(__name__)


class OvsDpdkContext(Context):
    """ This class handles OVS standalone nodes - VM running on Non-Managed NFVi
    Configuration: ovs_dpdk
    """

    __context_type__ = "StandaloneOvsDpdk"

    SUPPORTED_OVS_TO_DPDK_MAP = {
        '2.6.0': '16.07.1',
        '2.6.1': '16.07.2',
        '2.7.0': '16.11.1',
        '2.7.1': '16.11.2',
        '2.7.2': '16.11.3',
        '2.8.0': '17.05.2'
    }

    DEFAULT_OVS = '2.6.0'

    PKILL_TEMPLATE = "pkill %s %s"

    def __init__(self):
        self.file_path = None
        self.sriov = []
        self.first_run = True
        self.dpdk_nic_bind = ""
        self.vm_names = []
        self.name = None
        self.nfvi_host = []
        self.nodes = []
        self.networks = {}
        self.attrs = {}
        self.vm_flavor = None
        self.servers = None
        self.helper = StandaloneContextHelper()
        self.vnf_node = Server()
        self.ovs_properties = {}
        self.wait_for_vswitchd = 10
        super(OvsDpdkContext, self).__init__()

    def init(self, attrs):
        """initializes itself from the supplied arguments"""

        self.name = attrs["name"]
        self.file_path = attrs.get("file", "pod.yaml")

        self.nodes, self.nfvi_host, self.host_mgmt = \
            self.helper.parse_pod_file(self.file_path, 'OvsDpdk')

        self.attrs = attrs
        self.vm_flavor = attrs.get('flavor', {})
        self.servers = attrs.get('servers', {})
        self.vm_deploy = attrs.get("vm_deploy", True)
        self.ovs_properties = attrs.get('ovs_properties', {})
        # add optional static network definition
        self.networks = attrs.get("networks", {})

        LOG.debug("Nodes: %r", self.nodes)
        LOG.debug("NFVi Node: %r", self.nfvi_host)
        LOG.debug("Networks: %r", self.networks)

    def setup_ovs(self):
        vpath = self.ovs_properties.get("vpath", "/usr/local")
        xargs_kill_cmd = self.PKILL_TEMPLATE % ('-9', 'ovs')

        create_from = os.path.join(vpath, 'etc/openvswitch/conf.db')
        create_to = os.path.join(vpath, 'share/openvswitch/vswitch.ovsschema')

        cmd_list = [
            "chmod 0666 /dev/vfio/*",
            "chmod a+x /dev/vfio",
            "pkill -9 ovs",
            xargs_kill_cmd,
            "killall -r 'ovs*'",
            "mkdir -p {0}/etc/openvswitch".format(vpath),
            "mkdir -p {0}/var/run/openvswitch".format(vpath),
            "rm {0}/etc/openvswitch/conf.db".format(vpath),
            "ovsdb-tool create {0} {1}".format(create_from, create_to),
            "modprobe vfio-pci",
            "chmod a+x /dev/vfio",
            "chmod 0666 /dev/vfio/*",
        ]
        for cmd in cmd_list:
            self.connection.execute(cmd)
        bind_cmd = "{dpdk_nic_bind} --force -b {driver} {port}"
        phy_driver = "vfio-pci"
        for _, port in self.networks.items():
            vpci = port.get("phy_port")
            self.connection.execute(bind_cmd.format(dpdk_nic_bind=self.dpdk_nic_bind,
                                                    driver=phy_driver, port=vpci))

    def start_ovs_serverswitch(self):
        vpath = self.ovs_properties.get("vpath")
        pmd_nums = int(self.ovs_properties.get("pmd_threads", 2))
        ovs_sock_path = '/var/run/openvswitch/db.sock'
        log_path = '/var/log/openvswitch/ovs-vswitchd.log'

        pmd_cpu_mask = self.ovs_properties.get("pmd_cpu_mask", '')
        pmd_mask = hex(sum(2 ** num for num in range(pmd_nums)) << 1)
        if pmd_cpu_mask:
            pmd_mask = pmd_cpu_mask

        socket0 = self.ovs_properties.get("ram", {}).get("socket_0", "2048")
        socket1 = self.ovs_properties.get("ram", {}).get("socket_1", "2048")

        ovs_other_config = "ovs-vsctl {0}set Open_vSwitch . other_config:{1}"
        detach_cmd = "ovs-vswitchd unix:{0}{1} --pidfile --detach --log-file={2}"

        lcore_mask = self.ovs_properties.get("lcore_mask", '')
        if lcore_mask:
            lcore_mask = ovs_other_config.format("--no-wait ", "dpdk-lcore-mask='%s'" % lcore_mask)

        cmd_list = [
            "mkdir -p /usr/local/var/run/openvswitch",
            "mkdir -p {}".format(os.path.dirname(log_path)),
            "ovsdb-server --remote=punix:/{0}/{1}  --pidfile --detach".format(vpath,
                                                                              ovs_sock_path),
            ovs_other_config.format("--no-wait ", "dpdk-init=true"),
            ovs_other_config.format("--no-wait ", "dpdk-socket-mem='%s,%s'" % (socket0, socket1)),
            lcore_mask,
            detach_cmd.format(vpath, ovs_sock_path, log_path),
            ovs_other_config.format("", "pmd-cpu-mask=%s" % pmd_mask),
        ]

        for cmd in cmd_list:
            LOG.info(cmd)
            self.connection.execute(cmd)
        time.sleep(self.wait_for_vswitchd)

    def setup_ovs_bridge_add_flows(self):
        dpdk_args = ""
        dpdk_list = []
        vpath = self.ovs_properties.get("vpath", "/usr/local")
        version = self.ovs_properties.get('version', {})
        ovs_ver = [int(x) for x in version.get('ovs', self.DEFAULT_OVS).split('.')]
        ovs_add_port = \
            "ovs-vsctl add-port {br} {port} -- set Interface {port} type={type_}{dpdk_args}"
        ovs_add_queue = "ovs-vsctl set Interface {port} options:n_rxq={queue}"
        chmod_vpath = "chmod 0777 {0}/var/run/openvswitch/dpdkvhostuser*"

        cmd_dpdk_list = [
            "ovs-vsctl del-br br0",
            "rm -rf {0}/var/run/openvswitch/dpdkvhostuser*".format(vpath),
            "ovs-vsctl add-br br0 -- set bridge br0 datapath_type=netdev",
        ]

        ordered_network = OrderedDict(self.networks)
        for index, vnf in enumerate(ordered_network.values()):
            if ovs_ver >= [2, 7, 0]:
                dpdk_args = " options:dpdk-devargs=%s" % vnf.get("phy_port")
            dpdk_list.append(ovs_add_port.format(br='br0', port='dpdk%s' % vnf.get("port_num", 0),
                                                 type_='dpdk', dpdk_args=dpdk_args))
            dpdk_list.append(ovs_add_queue.format(port='dpdk%s' % vnf.get("port_num", 0),
                                                  queue=self.ovs_properties.get("queues", 1)))

        # Sorting the array to make sure we execute dpdk0... in the order
        list.sort(dpdk_list)
        cmd_dpdk_list.extend(dpdk_list)

        # Need to do two for loop to maintain the dpdk/vhost ports.
        for index, _ in enumerate(ordered_network):
            cmd_dpdk_list.append(ovs_add_port.format(br='br0', port='dpdkvhostuser%s' % index,
                                                     type_='dpdkvhostuser', dpdk_args=""))

        for cmd in cmd_dpdk_list:
            LOG.info(cmd)
            self.connection.execute(cmd)

        # Fixme: add flows code
        ovs_flow = "ovs-ofctl add-flow br0 in_port=%s,action=output:%s"

        network_count = len(ordered_network) + 1
        for in_port, out_port in zip(range(1, network_count),
                                     range(network_count, network_count * 2)):
            self.connection.execute(ovs_flow % (in_port, out_port))
            self.connection.execute(ovs_flow % (out_port, in_port))

        self.connection.execute(chmod_vpath.format(vpath))

    def cleanup_ovs_dpdk_env(self):
        self.connection.execute("ovs-vsctl del-br br0")
        self.connection.execute("pkill -9 ovs")

    def check_ovs_dpdk_env(self):
        self.cleanup_ovs_dpdk_env()

        version = self.ovs_properties.get("version", {})
        ovs_ver = version.get("ovs", self.DEFAULT_OVS)
        dpdk_ver = version.get("dpdk", "16.07.2").split('.')

        supported_version = self.SUPPORTED_OVS_TO_DPDK_MAP.get(ovs_ver, None)
        if supported_version is None or supported_version.split('.')[:2] != dpdk_ver[:2]:
            raise Exception("Unsupported ovs '{}'. Please check the config...".format(ovs_ver))

        status = self.connection.execute("ovs-vsctl -V | grep -i '%s'" % ovs_ver)[0]
        if status:
            deploy = OvsDeploy(self.connection,
                               get_nsb_option("bin_path"),
                               self.ovs_properties)
            deploy.ovs_deploy()

    def deploy(self):
        """don't need to deploy"""

        # Todo: NFVi deploy (sriov, vswitch, ovs etc) based on the config.
        if not self.vm_deploy:
            return

        self.connection = ssh.SSH.from_node(self.host_mgmt)
        self.dpdk_nic_bind = provision_tool(
            self.connection,
            os.path.join(get_nsb_option("bin_path"), "dpdk-devbind.py"))

        # Check dpdk/ovs version, if not present install
        self.check_ovs_dpdk_env()
        #    Todo: NFVi deploy (sriov, vswitch, ovs etc) based on the config.
        StandaloneContextHelper.install_req_libs(self.connection)
        self.networks = StandaloneContextHelper.get_nic_details(self.connection,
                                                                self.networks,
                                                                self.dpdk_nic_bind)

        self.setup_ovs()
        self.start_ovs_serverswitch()
        self.setup_ovs_bridge_add_flows()
        self.nodes = self.setup_ovs_dpdk_context()
        LOG.debug("Waiting for VM to come up...")
        self.nodes = StandaloneContextHelper.wait_for_vnfs_to_start(self.connection,
                                                                    self.servers,
                                                                    self.nodes)

    def undeploy(self):

        if not self.vm_deploy:
            return

        # Cleanup the ovs installation...
        self.cleanup_ovs_dpdk_env()

        # Bind nics back to kernel
        bind_cmd = "{dpdk_nic_bind} --force -b {driver} {port}"
        for port in self.networks.values():
            vpci = port.get("phy_port")
            phy_driver = port.get("driver")
            self.connection.execute(bind_cmd.format(dpdk_nic_bind=self.dpdk_nic_bind,
                                                    driver=phy_driver, port=vpci))

        # Todo: NFVi undeploy (sriov, vswitch, ovs etc) based on the config.
        for vm in self.vm_names:
            Libvirt.check_if_vm_exists_and_delete(vm, self.connection)

    def _get_server(self, attr_name):
        """lookup server info by name from context

        Keyword arguments:
        attr_name -- A name for a server listed in nodes config file
        """
        node_name, name = self.split_name(attr_name)
        if name is None or self.name != name:
            return None

        matching_nodes = (n for n in self.nodes if n["name"] == node_name)
        try:
            # A clone is created in order to avoid affecting the
            # original one.
            node = dict(next(matching_nodes))
        except StopIteration:
            return None

        try:
            duplicate = next(matching_nodes)
        except StopIteration:
            pass
        else:
            raise ValueError("Duplicate nodes!!! Nodes: %s %s" % (node, duplicate))

        node["name"] = attr_name
        return node

    def _get_network(self, attr_name):
        if not isinstance(attr_name, collections.Mapping):
            network = self.networks.get(attr_name)

        else:
            # Don't generalize too much  Just support vld_id
            vld_id = attr_name.get('vld_id', {})
            # for standalone context networks are dicts
            iter1 = (n for n in self.networks.values() if n.get('vld_id') == vld_id)
            network = next(iter1, None)

        if network is None:
            return None

        result = {
            # name is required
            "name": network["name"],
            "vld_id": network.get("vld_id"),
            "segmentation_id": network.get("segmentation_id"),
            "network_type": network.get("network_type"),
            "physical_network": network.get("physical_network"),
        }
        return result

    def configure_nics_for_ovs_dpdk(self):
        portlist = OrderedDict(self.networks)
        for key in portlist:
            mac = StandaloneContextHelper.get_mac_address()
            portlist[key].update({'mac': mac})
        self.networks = portlist
        LOG.info("Ports %s", self.networks)

    def _enable_interfaces(self, index, vfs, cfg):
        vpath = self.ovs_properties.get("vpath", "/usr/local")
        vf = self.networks[vfs[0]]
        port_num = vf.get('port_num', 0)
        vpci = PciAddress(vf['vpci'].strip())
        # Generate the vpci for the interfaces
        slot = index + port_num + 10
        vf['vpci'] = \
            "{}:{}:{:02x}.{}".format(vpci.domain, vpci.bus, slot, vpci.function)
        Libvirt.add_ovs_interface(vpath, port_num, vf['vpci'], vf['mac'], str(cfg))

    def setup_ovs_dpdk_context(self):
        nodes = []

        self.configure_nics_for_ovs_dpdk()

        for index, (key, vnf) in enumerate(OrderedDict(self.servers).items()):
            cfg = '/tmp/vm_ovs_%d.xml' % index
            vm_name = "vm_%d" % index

            # 1. Check and delete VM if already exists
            Libvirt.check_if_vm_exists_and_delete(vm_name, self.connection)

            _, mac = Libvirt.build_vm_xml(self.connection, self.vm_flavor,
                                          cfg, vm_name, index)
            # 2: Cleanup already available VMs
            for vkey, vfs in OrderedDict(vnf["network_ports"]).items():
                if vkey == "mgmt":
                    continue
                self._enable_interfaces(index, vfs, cfg)

            # copy xml to target...
            self.connection.put(cfg, cfg)

            # NOTE: launch through libvirt
            LOG.info("virsh create ...")
            Libvirt.virsh_create_vm(self.connection, cfg)

            self.vm_names.append(vm_name)

            # build vnf node details
            nodes.append(self.vnf_node.generate_vnf_instance(self.vm_flavor,
                                                             self.networks,
                                                             self.host_mgmt.get('ip'),
                                                             key, vnf, mac))

        return nodes