net-config-undercloud.yaml


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heat_template_version: pike
description: >
  Software Config to drive os-net-config for a simple bridge configured with a static IP address for the ctlplane network.
parameters:
  ControlPlaneIp:
    default: ''
    description: IP address/subnet on the ctlplane network
    type: string
  ExternalIpSubnet:
    default: ''
    description: IP address/subnet on the external network
    type: string
  InternalApiIpSubnet:
    default: ''
    description: IP address/subnet on the internal API network
    type: string
  StorageIpSubnet:
    default: ''
    description: IP address/subnet on the storage network
    type: string
  StorageMgmtIpSubnet:
    default: ''
    description: IP address/subnet on the storage mgmt network
    type: string
  TenantIpSubnet:
    default: ''
    description: IP address/subnet on the tenant network
    type: string
  ManagementIpSubnet:
    default: ''
    description: IP address/subnet on the management network
    type: string
  ControlPlaneSubnetCidr: # Override this via parameter_defaults
    default: '24'
    description: The subnet CIDR of the control plane network.
    type: string
  DnsServers: # Override this via parameter_defaults
    default: []
    description: A list of DNS servers (2 max for some implementations) that will be added to resolv.conf.
    type: comma_delimited_list
resources:
  OsNetConfigImpl:
    type: OS::Heat::SoftwareConfig
    properties:
      group: script
      inputs:
        - name: disable_configure_safe_defaults
          default: true
      config:
        str_replace:
          template:
            get_file: network/scripts/run-os-net-config.sh
          params:
            $network_config:
              network_config:
              - type: ovs_bridge
                name: br-ctlplane
                use_dhcp: false
                dns_servers:
                  get_param: DnsServers
                addresses:
                - ip_netmask:
                    list_join:
                    - /
                    - - get_param: ControlPlaneIp
                      - get_param: ControlPlaneSubnetCidr
                members:
                - type: interface
                  name: eth1
                  # force the MAC address of the bridge to this interface
                  primary: true
outputs:
  OS::stack_id:
    description: The OsNetConfigImpl resource.
    value:
      get_resource: OsNetConfigImpl
#!/usr/bin/python
#
# Copyright (c) 2015 All rights reserved
# This program and the accompanying materials
# are made available under the terms of the Apache License, Version 2.0
# which accompanies this distribution, and is available at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# 0.1: This script boots the VM1 and allocates IP address from Nova
# Later, the VM2 boots then execute cloud-init to ping VM1.
# After successful ping, both the VMs are deleted.
# 0.2: measure test duration and publish results under json format
#
#
import argparse
import datetime
import logging
import os
import paramiko
import pprint
import re
import subprocess
import sys
import time
import yaml
from scp import SCPClient
from novaclient import client as novaclient
from neutronclient.v2_0 import client as neutronclient
from keystoneclient.v2_0 import client as keystoneclient
from glanceclient import client as glanceclient

pp = pprint.PrettyPrinter(indent=4)

parser = argparse.ArgumentParser()

parser.add_argument("-d", "--debug", help="Debug mode", action="store_true")
parser.add_argument("-r", "--report",
                    help="Create json result file",
                    action="store_true")
parser.add_argument("-n", "--noclean",
                    help="Don't clean the created resources for this test.",
                    action="store_true")

args = parser.parse_args()

""" logging configuration """

logger = logging.getLogger('vPing_ssh')
logger.setLevel(logging.DEBUG)

ch = logging.StreamHandler()

if args.debug:
    ch.setLevel(logging.DEBUG)
else:
    ch.setLevel(logging.INFO)

formatter = logging.Formatter('%(asctime)s - %(name)s'
                              '- %(levelname)s - %(message)s')

ch.setFormatter(formatter)
logger.addHandler(ch)
paramiko.util.log_to_file("/var/log/paramiko.log")

REPO_PATH = os.environ['repos_dir']+'/functest/'
if not os.path.exists(REPO_PATH):
    logger.error("Functest repository directory not found '%s'" % REPO_PATH)
    exit(-1)
sys.path.append(REPO_PATH + "testcases/")
import functest_utils

with open("/home/opnfv/functest/conf/config_functest.yaml") as f:
    functest_yaml = yaml.safe_load(f)
f.close()

HOME = os.environ['HOME'] + "/"
# vPing parameters
VM_BOOT_TIMEOUT = 180
VM_DELETE_TIMEOUT = 100
PING_TIMEOUT = functest_yaml.get("vping").get("ping_timeout")
TEST_DB = functest_yaml.get("results").get("test_db_url")
NAME_VM_1 = functest_yaml.get("vping").get("vm_name_1")
NAME_VM_2 = functest_yaml.get("vping").get("vm_name_2")
# GLANCE_IMAGE_NAME = functest_yaml.get("general"). \
#    get("openstack").get("image_name")
GLANCE_IMAGE_NAME = "functest-vping"
GLANCE_IMAGE_FILENAME = functest_yaml.get("general"). \
    get("openstack").get("image_file_name")
GLANCE_IMAGE_FORMAT = functest_yaml.get("general"). \
    get("openstack").get("image_disk_format")
GLANCE_IMAGE_PATH = functest_yaml.get("general"). \
    get("directories").get("dir_functest_data") + "/" + GLANCE_IMAGE_FILENAME


FLAVOR = functest_yaml.get("vping").get("vm_flavor")

# NEUTRON Private Network parameters

NEUTRON_PRIVATE_NET_NAME = functest_yaml.get("vping"). \
    get("vping_private_net_name")
NEUTRON_PRIVATE_SUBNET_NAME = functest_yaml.get("vping"). \
    get("vping_private_subnet_name")
NEUTRON_PRIVATE_SUBNET_CIDR = functest_yaml.get("vping"). \
    get("vping_private_subnet_cidr")
NEUTRON_ROUTER_NAME = functest_yaml.get("vping"). \
    get("vping_router_name")

SECGROUP_NAME = functest_yaml.get("vping"). \
    get("vping_sg_name")
SECGROUP_DESCR = functest_yaml.get("vping"). \
    get("vping_sg_descr")


def pMsg(value):

    """pretty printing"""
    pp.pprint(value)


def waitVmActive(nova, vm):

    # sleep and wait for VM status change
    sleep_time = 3
    count = VM_BOOT_TIMEOUT / sleep_time
    while True:
        status = functest_utils.get_instance_status(nova, vm)
        logger.debug("Status: %s" % status)
        if status == "ACTIVE":
            return True
        if status == "ERROR" or status == "error":
            return False
        if count == 0:
            logger.debug("Booting a VM timed out...")
            return False
        count -= 1
        time.sleep(sleep_time)
    return False


def waitVmDeleted(nova, vm):

    # sleep and wait for VM status change
    sleep_time = 3
    count = VM_DELETE_TIMEOUT / sleep_time
    while True:
        status = functest_utils.get_instance_status(nova, vm)
        if not status:
            return True
        elif count == 0:
            logger.debug("Timeout")
            return False
        else:
            # return False
            count -= 1
        time.sleep(sleep_time)
    return False


def create_private_neutron_net(neutron):

    # Check if the network already exists
    network_id = functest_utils.get_network_id(neutron,NEUTRON_PRIVATE_NET_NAME)
    subnet_id = functest_utils.get_subnet_id(neutron,NEUTRON_PRIVATE_SUBNET_NAME)
    router_id = functest_utils.get_router_id(neutron,NEUTRON_ROUTER_NAME)

    if network_id != '' and subnet_id != ''  and router_id != '' :
        logger.info("Using existing network '%s'..." % NEUTRON_PRIVATE_NET_NAME)
    else:
        neutron.format = 'json'
        logger.info('Creating neutron network %s...' % NEUTRON_PRIVATE_NET_NAME)
        network_id = functest_utils. \
            create_neutron_net(neutron, NEUTRON_PRIVATE_NET_NAME)

        if not network_id:
            return False
        logger.debug("Network '%s' created successfully" % network_id)
        logger.debug('Creating Subnet....')
        subnet_id = functest_utils. \
            create_neutron_subnet(neutron,
                                  NEUTRON_PRIVATE_SUBNET_NAME,
                                  NEUTRON_PRIVATE_SUBNET_CIDR,
                                  network_id)
        if not subnet_id:
            return False
        logger.debug("Subnet '%s' created successfully" % subnet_id)
        logger.debug('Creating Router...')
        router_id = functest_utils. \
            create_neutron_router(neutron, NEUTRON_ROUTER_NAME)

        if not router_id:
            return False

        logger.debug("Router '%s' created successfully" % router_id)
        logger.debug('Adding router to subnet...')

        if not functest_utils.add_interface_router(neutron, router_id, subnet_id):
            return False
        logger.debug("Interface added successfully.")

        logger.debug('Adding gateway to router...')
        if not functest_utils.add_gateway_router(neutron, router_id):
            return False
        logger.debug("Gateway added successfully.")

    network_dic = {'net_id': network_id,
                   'subnet_id': subnet_id,
                   'router_id': router_id}
    return network_dic

def create_security_group(neutron_client):
    sg_id = functest_utils.get_security_group_id(neutron_client, SECGROUP_NAME)
    if sg_id != '':
        logger.info("Using existing security group '%s'..." % SECGROUP_NAME)
    else:
        logger.info("Creating security group  '%s'..." % SECGROUP_NAME)
        SECGROUP = functest_utils.create_security_group(neutron_client,
                                              SECGROUP_NAME,
                                              SECGROUP_DESCR)
        if not SECGROUP:
            logger.error("Failed to create the security group...")
            return False

        sg_id = SECGROUP['id']

        logger.debug("Security group '%s' with ID=%s created successfully." %\
                      (SECGROUP['name'], sg_id))

        logger.debug("Adding ICMP rules in security group '%s'..." % SECGROUP_NAME)
        if not functest_utils.create_secgroup_rule(neutron_client, sg_id, \
                        'ingress', 'icmp'):
            logger.error("Failed to create the security group rule...")
            return False

        logger.debug("Adding SSH rules in security group '%s'..." % SECGROUP_NAME)
        if not functest_utils.create_secgroup_rule(neutron_client, sg_id, \
                        'ingress', 'tcp', '22', '22'):
            logger.error("Failed to create the security group rule...")
            return False

        if not functest_utils.create_secgroup_rule(neutron_client, sg_id, \
                        'egress', 'tcp', '22', '22'):
            logger.error("Failed to create the security group rule...")
            return False
    return sg_id

def cleanup(nova, neutron, image_id, network_dic, sg_id, floatingip):
    if args.noclean:
        logger.debug("The OpenStack resources are not deleted.")
        return True

    # delete both VMs
    logger.info("Cleaning up...")
    logger.debug("Deleting image...")
    if not functest_utils.delete_glance_image(nova, image_id):
        logger.error("Error deleting the glance image")

    vm1 = functest_utils.get_instance_by_name(nova, NAME_VM_1)
    if vm1:
        logger.debug("Deleting '%s'..." % NAME_VM_1)
        nova.servers.delete(vm1)
        # wait until VMs are deleted
        if not waitVmDeleted(nova, vm1):
            logger.error(
                "Instance '%s' with cannot be deleted. Status is '%s'" % (
                    NAME_VM_1, functest_utils.get_instance_status(nova, vm1)))
        else:
            logger.debug("Instance %s terminated." % NAME_VM_1)

    vm2 = functest_utils.get_instance_by_name(nova, NAME_VM_2)

    if vm2:
        logger.debug("Deleting '%s'..." % NAME_VM_2)
        vm2 = nova.servers.find(name=NAME_VM_2)
        nova.servers.delete(vm2)

        if not waitVmDeleted(nova, vm2):
            logger.error(
                "Instance '%s' with cannot be deleted. Status is '%s'" % (
                    NAME_VM_2, functest_utils.get_instance_status(nova, vm2)))
        else:
            logger.debug("Instance %s terminated." % NAME_VM_2)

    # delete created network
    logger.debug("Deleting network '%s'..." % NEUTRON_PRIVATE_NET_NAME)
    net_id = network_dic["net_id"]
    subnet_id = network_dic["subnet_id"]
    router_id = network_dic["router_id"]

    if not functest_utils.remove_interface_router(neutron, router_id,
                                                  subnet_id):
        logger.error("Unable to remove subnet '%s' from router '%s'" % (
            subnet_id, router_id))
        return False

    logger.debug("Interface removed successfully")
    if not functest_utils.delete_neutron_router(neutron, router_id):
        logger.error("Unable to delete router '%s'" % router_id)
        return False

    logger.debug("Router deleted successfully")

    if not functest_utils.delete_neutron_subnet(neutron, subnet_id):
        logger.error("Unable to delete subnet '%s'" % subnet_id)
        return False

    logger.debug(
        "Subnet '%s' deleted successfully" % NEUTRON_PRIVATE_SUBNET_NAME)

    if not functest_utils.delete_neutron_net(neutron, net_id):
        logger.error("Unable to delete network '%s'" % net_id)
        return False

    logger.debug(
        "Network '%s' deleted successfully" % NEUTRON_PRIVATE_NET_NAME)

    if not functest_utils.delete_security_group(neutron, sg_id):
        logger.error("Unable to delete security group '%s'" % sg_id)
        return False
    logger.debug(
        "Security group '%s' deleted successfully" % sg_id)

    logger.debug("Releasing floating ip '%s'..." % floatingip['fip_addr'])
    if not functest_utils.delete_floating_ip(nova, floatingip['fip_id']):
        logger.error("Unable to delete floatingip '%s'" % floatingip['fip_addr'])
        return False
    logger.debug(
        "Floating IP '%s' deleted successfully" % floatingip['fip_addr'])
    return True


def push_results(start_time_ts, duration, test_status):
    try:
        logger.debug("Pushing result into DB...")
        scenario = functest_utils.get_scenario(logger)
        pod_name = functest_utils.get_pod_name(logger)
        build_tag = functest_utils.get_build_tag(logger)
        functest_utils.push_results_to_db(TEST_DB,
                                          "functest",
                                          "vPing",
                                          logger, pod_name, scenario, build_tag,
                                          payload={'timestart': start_time_ts,
                                                   'duration': duration,
                                                   'status': test_status})
    except:
        logger.error("Error pushing results into Database '%s'" % sys.exc_info()[0])


def main():

    creds_nova = functest_utils.get_credentials("nova")
    nova_client = novaclient.Client('2', **creds_nova)
    creds_neutron = functest_utils.get_credentials("neutron")
    neutron_client = neutronclient.Client(**creds_neutron)
    creds_keystone = functest_utils.get_credentials("keystone")
    keystone_client = keystoneclient.Client(**creds_keystone)
    glance_endpoint = keystone_client.service_catalog.url_for(service_type='image',
                                                              endpoint_type='publicURL')
    glance_client = glanceclient.Client(1, glance_endpoint,
                                        token=keystone_client.auth_token)
    EXIT_CODE = -1

    image_id = None
    flavor = None

    # Check if the given image exists
    image_id = functest_utils.get_image_id(glance_client, GLANCE_IMAGE_NAME)
    if image_id != '':
        logger.info("Using existing image '%s'..." % GLANCE_IMAGE_NAME)
    else:
        logger.info("Creating image '%s' from '%s'..." % (GLANCE_IMAGE_NAME,
                                                       GLANCE_IMAGE_PATH))
        image_id = functest_utils.create_glance_image(glance_client,
                                                      GLANCE_IMAGE_NAME,
                                                      GLANCE_IMAGE_PATH)
        if not image_id:
            logger.error("Failed to create a Glance image...")
            return(EXIT_CODE)
        logger.debug("Image '%s' with ID=%s created successfully." %\
                  (GLANCE_IMAGE_NAME, image_id))


    network_dic = create_private_neutron_net(neutron_client)
    if not network_dic:
        logger.error(
            "There has been a problem when creating the neutron network")
        return(EXIT_CODE)

    network_id = network_dic["net_id"]

    sg_id = create_security_group(neutron_client)

    # Check if the given flavor exists
    try:
        flavor = nova_client.flavors.find(name=FLAVOR)
        logger.info("Using existing Flavor '%s'..." % FLAVOR)
    except:
        logger.error("Flavor '%s' not found." % FLAVOR)
        logger.info("Available flavors are: ")
        pMsg(nova_client.flavor.list())
        return(EXIT_CODE)

    # Deleting instances if they exist
    servers = nova_client.servers.list()
    for server in servers:
        if server.name == NAME_VM_1 or server.name == NAME_VM_2:
            logger.info("Instance %s found. Deleting..." % server.name)
            server.delete()


    # boot VM 1
    start_time_ts = time.time()
    end_time_ts = start_time_ts
    logger.info("vPing Start Time:'%s'" % (
        datetime.datetime.fromtimestamp(start_time_ts).strftime(
            '%Y-%m-%d %H:%M:%S')))

    logger.info("Creating instance '%s'..." % NAME_VM_1)
    logger.debug(
        "Configuration:\n name=%s \n flavor=%s \n image=%s \n "
        "network=%s \n" % (NAME_VM_1, flavor, image_id, network_id))
    vm1 = nova_client.servers.create(
        name=NAME_VM_1,
        flavor=flavor,
        image=image_id,
        nics=[{"net-id": network_id}]
    )

    # wait until VM status is active
    if not waitVmActive(nova_client, vm1):
        logger.error("Instance '%s' cannot be booted. Status is '%s'" % (
            NAME_VM_1, functest_utils.get_instance_status(nova_client, vm1)))
        cleanup(nova_client, neutron_client, image_id, network_dic, sg_id, floatingip)
        return (EXIT_CODE)
    else:
        logger.info("Instance '%s' is ACTIVE." % NAME_VM_1)

    # Retrieve IP of first VM
    test_ip = vm1.networks.get(NEUTRON_PRIVATE_NET_NAME)[0]
    logger.debug("Instance '%s' got private ip '%s'." % (NAME_VM_1, test_ip))

    logger.info("Adding '%s' to security group '%s'..." % (NAME_VM_1, SECGROUP_NAME))
    functest_utils.add_secgroup_to_instance(nova_client, vm1.id, sg_id)

    # boot VM 2
    logger.info("Creating instance '%s'..." % NAME_VM_2)
    logger.debug(
        "Configuration:\n name=%s \n flavor=%s \n image=%s \n "
        "network=%s \n" % (NAME_VM_2, flavor, image_id, network_id))
    vm2 = nova_client.servers.create(
        name=NAME_VM_2,
        flavor=flavor,
        image=image_id,
        nics=[{"net-id": network_id}]
    )

    if not waitVmActive(nova_client, vm2):
        logger.error("Instance '%s' cannot be booted. Status is '%s'" % (
            NAME_VM_2, functest_utils.get_instance_status(nova_client, vm2)))
        cleanup(nova_client, neutron_client, image_id, network_dic, sg_id, floatip_dic)
        return (EXIT_CODE)
    else:
        logger.info("Instance '%s' is ACTIVE." % NAME_VM_2)

    logger.info("Adding '%s' to security group '%s'..." % (NAME_VM_2, SECGROUP_NAME))
    functest_utils.add_secgroup_to_instance(nova_client, vm2.id, sg_id)

    logger.info("Creating floating IP for VM '%s'..." % NAME_VM_2)
    floatip_dic = functest_utils.create_floating_ip(neutron_client)
    floatip = floatip_dic['fip_addr']
    floatip_id = floatip_dic['fip_id']

    if floatip == None:
        logger.error("Cannot create floating IP.")
        cleanup(nova_client, neutron_client, image_id, network_dic, sg_id, floatip_dic)
        return (EXIT_CODE)
    logger.info("Floating IP created: '%s'" % floatip)

    logger.info("Associating floating ip: '%s' to VM '%s' " % (floatip, NAME_VM_2))
    if not functest_utils.add_floating_ip(nova_client, vm2.id, floatip):
        logger.error("Cannot associate floating IP to VM.")
        cleanup(nova_client, neutron_client, image_id, network_dic, sg_id, floatip_dic)
        return (EXIT_CODE)

    logger.info("Trying to establish SSH connection to %s..." % floatip)
    username='cirros'
    password='cubswin:)'
    ssh = paramiko.SSHClient()
    ssh.set_missing_host_key_policy(paramiko.AutoAddPolicy())

    timeout = 50
    nolease = False
    got_ip = False
    discover_count = 0
    cidr_first_octet = NEUTRON_PRIVATE_SUBNET_CIDR.split('.')[0]
    while timeout > 0:
        try:
            ssh.connect(floatip, username=username, password=password, timeout=2)
            logger.debug("SSH connection established to %s." % floatip)
            break
        except Exception, e:
            logger.debug("Waiting for %s..." % floatip)
            time.sleep(6)
            timeout -= 1

        console_log = vm2.get_console_output()

        # print each "Sending discover" captured on the console log
        if len(re.findall("Sending discover",console_log)) > discover_count and not got_ip:
            discover_count += 1
            logger.debug("Console-log '%s': Sending discover..." % NAME_VM_2)

        # check if eth0 got an ip, the line looks like this: "inet addr:192.168."....
        # if the dhcp agent fails to assing ip, this line will not appear
        if "inet addr:"+cidr_first_octet in console_log and not got_ip:
            got_ip = True
            logger.debug("The instance '%s' succeeded to get the IP from the dhcp agent.")

        # if dhcp doesn't work, it shows "No lease, failing". The test will fail...
        if "No lease, failing" in console_log and not nolease and not got_ip:
                nolease = True
                logger.debug("Console-log '%s': No lease, failing..." % NAME_VM_2)
                logger.info("The instance failed to get an IP from "\
                            "the DHCP agent. The test will probably timeout...")


    if timeout == 0: # 300 sec timeout (5 min)
        logger.error("Cannot establish connection to IP '%s'. Aborting" % floatip)
        cleanup(nova_client, neutron_client, image_id, network_dic, sg_id, floatip_dic)
        return (EXIT_CODE)

    scp = SCPClient(ssh.get_transport())

    ping_script = REPO_PATH + "testcases/vPing/CI/libraries/ping.sh"
    try:
        scp.put(ping_script,"~/")
    except Exception, e:
        logger.error("Cannot SCP the file '%s' to VM '%s'" % (ping_script,floatip))


    cmd = 'chmod 755 ~/ping.sh'
    (stdin, stdout, stderr) = ssh.exec_command(cmd)
    for line in stdout.readlines():
        print line

    logger.info("Waiting for ping...")
    sec = 0
    duration = 0

    cmd = '~/ping.sh ' + test_ip
    flag = False
    while True:
        time.sleep(1)
        (stdin, stdout, stderr) = ssh.exec_command(cmd)
        output = stdout.readlines()


        for line in output:
            if "vPing OK" in line:
                logger.info("vPing detected!")

                # we consider start time at VM1 booting
                end_time_ts = time.time()
                duration = round(end_time_ts - start_time_ts, 1)
                logger.info("vPing duration:'%s' s." % duration)
                EXIT_CODE = 0
                flag = True
                break
            elif sec == PING_TIMEOUT:
                logger.info("Timeout reached.")
                flag = True
                break
        if flag :
            break
        logger.debug("Pinging %s. Waiting for response..." % test_ip)
        sec += 1

    cleanup(nova_client, neutron_client, image_id, network_dic, sg_id, floatip_dic)

    test_status = "NOK"
    if EXIT_CODE == 0:
        logger.info("vPing OK")
        test_status = "OK"
    else:
        duration = 0
        logger.error("vPing FAILED")

    if args.report:
        push_results(start_time_ts, duration, test_status)

    exit(EXIT_CODE)

if __name__ == '__main__':
    main()