Example #1
0
 def get_random_params(self):
     """create random parameters for portinfo test"""
     tenant = utils.str_uuid()
     network = utils.str_uuid()
     port = utils.str_uuid()
     _filter = utils.str_uuid()
     none = utils.str_uuid()
     return tenant, network, port, _filter, none
Example #2
0
 def get_random_params(self):
     """create random parameters for portinfo test"""
     tenant = utils.str_uuid()
     network = utils.str_uuid()
     port = utils.str_uuid()
     _filter = utils.str_uuid()
     none = utils.str_uuid()
     return tenant, network, port, _filter, none
Example #3
0
 def get_portinfo_random_params(self):
     """create random parameters for portinfo test"""
     port_id = utils.str_uuid()
     datapath_id = hex(random.randint(0, 0xffffffff))
     port_no = random.randint(1, 100)
     vlan_id = random.randint(0, 4095)
     mac = ':'.join(["%02x" % random.randint(0, 0xff) for x in range(6)])
     none = utils.str_uuid()
     return port_id, datapath_id, port_no, vlan_id, mac, none
Example #4
0
 def get_ofc_item_random_params(self):
     """create random parameters for ofc_item test"""
     tenant_id = utils.str_uuid()
     network_id = utils.str_uuid()
     port_id = utils.str_uuid()
     portinfo = nmodels.PortInfo(
         id=port_id, datapath_id="0x123456789", port_no=1234, vlan_id=321, mac="11:22:33:44:55:66"
     )
     return tenant_id, network_id, portinfo
Example #5
0
    def create_security_group(self, context, security_group, default_sg=False):
        """Create security group.
        If default_sg is true that means we are a default security group for
        a given tenant if it does not exist.
        """
        s = security_group['security_group']
        if (cfg.CONF.SECURITYGROUP.proxy_mode and not context.is_admin):
            raise ext_sg.SecurityGroupProxyModeNotAdmin()
        if (cfg.CONF.SECURITYGROUP.proxy_mode and not s.get('external_id')):
            raise ext_sg.SecurityGroupProxyMode()
        if not cfg.CONF.SECURITYGROUP.proxy_mode and s.get('external_id'):
            raise ext_sg.SecurityGroupNotProxyMode()

        tenant_id = self._get_tenant_id_for_create(context, s)

        # if in proxy mode a default security group will be created by source
        if not default_sg and not cfg.CONF.SECURITYGROUP.proxy_mode:
            self._ensure_default_security_group(context, tenant_id,
                                                security_group)
        if s.get('external_id'):
            try:
                # Check if security group already exists
                sg = self.get_security_group(context, s.get('external_id'))
                if sg:
                    raise ext_sg.SecurityGroupAlreadyExists(
                        name=sg.get('name', ''),
                        external_id=s.get('external_id'))
            except ext_sg.SecurityGroupNotFound:
                pass

        with context.session.begin(subtransactions=True):
            security_group_db = SecurityGroup(id=s.get('id') or (
                                              utils.str_uuid()),
                                              description=s['description'],
                                              tenant_id=tenant_id,
                                              name=s['name'],
                                              external_id=s.get('external_id'))
            context.session.add(security_group_db)
            if s.get('name') == 'default':
                for ethertype in self.sg_supported_ethertypes:
                    # Allow all egress traffic
                    db = SecurityGroupRule(
                        id=utils.str_uuid(), tenant_id=tenant_id,
                        security_group=security_group_db,
                        direction='egress',
                        ethertype=ethertype)
                    context.session.add(db)
                    # Allow intercommunication
                    db = SecurityGroupRule(
                        id=utils.str_uuid(), tenant_id=tenant_id,
                        security_group=security_group_db,
                        direction='ingress',
                        source_group=security_group_db,
                        ethertype=ethertype)
                    context.session.add(db)

        return self._make_security_group_dict(security_group_db)
Example #6
0
 def get_portinfo_random_params(self):
     """create random parameters for portinfo test"""
     port_id = utils.str_uuid()
     datapath_id = hex(random.randint(0, 0xffffffff))
     port_no = random.randint(1, 100)
     vlan_id = random.randint(0, 4095)
     mac = ':'.join(["%02x" % random.randint(0, 0xff) for x in range(6)])
     none = utils.str_uuid()
     return port_id, datapath_id, port_no, vlan_id, mac, none
Example #7
0
 def get_ofc_item_random_params(self):
     """create random parameters for ofc_item test"""
     tenant_id = utils.str_uuid()
     network_id = utils.str_uuid()
     port_id = utils.str_uuid()
     portinfo = nmodels.PortInfo(id=port_id, datapath_id="0x123456789",
                                 port_no=1234, vlan_id=321,
                                 mac="11:22:33:44:55:66")
     return tenant_id, network_id, portinfo
Example #8
0
    def create_security_group(self, context, security_group, default_sg=False):
        """Create security group.
        If default_sg is true that means we are a default security group for
        a given tenant if it does not exist.
        """
        s = security_group['security_group']
        if (cfg.CONF.SECURITYGROUP.proxy_mode and not context.is_admin):
            raise ext_sg.SecurityGroupProxyModeNotAdmin()
        if (cfg.CONF.SECURITYGROUP.proxy_mode and not s.get('external_id')):
            raise ext_sg.SecurityGroupProxyMode()
        if not cfg.CONF.SECURITYGROUP.proxy_mode and s.get('external_id'):
            raise ext_sg.SecurityGroupNotProxyMode()

        tenant_id = self._get_tenant_id_for_create(context, s)

        # if in proxy mode a default security group will be created by source
        if not default_sg and not cfg.CONF.SECURITYGROUP.proxy_mode:
            self._ensure_default_security_group(context, tenant_id,
                                                security_group)
        if s.get('external_id'):
            try:
                # Check if security group already exists
                sg = self.get_security_group(context, s.get('external_id'))
                if sg:
                    raise ext_sg.SecurityGroupAlreadyExists(
                        name=sg.get('name', ''),
                        external_id=s.get('external_id'))
            except ext_sg.SecurityGroupNotFound:
                pass

        with context.session.begin(subtransactions=True):
            security_group_db = SecurityGroup(id=s.get('id')
                                              or (utils.str_uuid()),
                                              description=s['description'],
                                              tenant_id=tenant_id,
                                              name=s['name'],
                                              external_id=s.get('external_id'))
            context.session.add(security_group_db)
            if s.get('name') == 'default':
                for ethertype in self.sg_supported_ethertypes:
                    # Allow all egress traffic
                    db = SecurityGroupRule(id=utils.str_uuid(),
                                           tenant_id=tenant_id,
                                           security_group=security_group_db,
                                           direction='egress',
                                           ethertype=ethertype)
                    context.session.add(db)
                    # Allow intercommunication
                    db = SecurityGroupRule(id=utils.str_uuid(),
                                           tenant_id=tenant_id,
                                           security_group=security_group_db,
                                           direction='ingress',
                                           source_group=security_group_db,
                                           ethertype=ethertype)
                    context.session.add(db)

        return self._make_security_group_dict(security_group_db)
Example #9
0
    def create_security_group_rule_bulk_native(self, context,
                                               security_group_rule):
        r = security_group_rule['security_group_rules']

        scoped_session(context.session)
        security_group_id = self._validate_security_group_rules(
            context, security_group_rule)
        with context.session.begin(subtransactions=True):
            if not self.get_security_group(context, security_group_id):
                raise ext_sg.SecurityGroupNotFound(id=security_group_id)

            self._check_for_duplicate_rules(context, r)
            ret = []
            for rule_dict in r:
                rule = rule_dict['security_group_rule']
                tenant_id = self._get_tenant_id_for_create(context, rule)
                db = SecurityGroupRule(
                    id=utils.str_uuid(), tenant_id=tenant_id,
                    security_group_id=rule['security_group_id'],
                    direction=rule['direction'],
                    external_id=rule.get('external_id'),
                    source_group_id=rule.get('source_group_id'),
                    ethertype=rule['ethertype'],
                    protocol=rule['protocol'],
                    port_range_min=rule['port_range_min'],
                    port_range_max=rule['port_range_max'],
                    source_ip_prefix=rule.get('source_ip_prefix'))
                context.session.add(db)
            ret.append(self._make_security_group_rule_dict(db))
        return ret
Example #10
0
    def create_subnet(self, context, subnet):
        s = subnet['subnet']
        net = netaddr.IPNetwork(s['cidr'])
        if s['gateway_ip'] == attributes.ATTR_NOT_SPECIFIED:
            s['gateway_ip'] = str(netaddr.IPAddress(net.first + 1))

        tenant_id = self._get_tenant_id_for_create(context, s)
        with context.session.begin():
            network = self._get_network(context, s["network_id"])
            self._validate_subnet_cidr(network, s['cidr'])
            subnet = models_v2.Subnet(tenant_id=tenant_id,
                                      id=s.get('id') or utils.str_uuid(),
                                      name=s['name'],
                                      network_id=s['network_id'],
                                      ip_version=s['ip_version'],
                                      cidr=s['cidr'],
                                      gateway_ip=s['gateway_ip'],
                                      enable_dhcp=s['enable_dhcp'])
            context.session.add(subnet)
            pools = self._allocate_pools_for_subnet(context, s)
            for pool in pools:
                ip_pool = models_v2.IPAllocationPool(subnet=subnet,
                                                     first_ip=pool['start'],
                                                     last_ip=pool['end'])
                context.session.add(ip_pool)
                ip_range = models_v2.IPAvailabilityRange(
                    ipallocationpool=ip_pool,
                    first_ip=pool['start'],
                    last_ip=pool['end'])
                context.session.add(ip_range)
        return self._make_subnet_dict(subnet)
Example #11
0
 def get_ofc_item_random_params(self):
     """create random parameters for ofc_item test"""
     t, n, p = (super(TremaFilterDriverTest,
                      self).get_ofc_item_random_params())
     filter_id = utils.str_uuid()
     filter_dict = {
         'tenant_id': t,
         'id': filter_id,
         'network_id': n,
         'priority': 123,
         'action': "ACCEPT",
         'in_port': p.id,
         'src_mac': p.mac,
         'dst_mac': "",
         'eth_type': 0,
         'src_cidr': "",
         'dst_cidr': "",
         'src_port': 0,
         'dst_port': 0,
         'protocol': "TCP",
         'admin_state_up': True,
         'status': "ACTIVE"
     }
     filter_item = nmodels.PacketFilter(**filter_dict)
     return t, n, p, filter_item
Example #12
0
    def create_security_group_rule_bulk_native(self, context,
                                               security_group_rule):
        r = security_group_rule['security_group_rules']

        scoped_session(context.session)
        security_group_id = self._validate_security_group_rules(
            context, security_group_rule)
        with context.session.begin(subtransactions=True):
            if not self.get_security_group(context, security_group_id):
                raise ext_sg.SecurityGroupNotFound(id=security_group_id)

            self._check_for_duplicate_rules(context, r)
            ret = []
            for rule_dict in r:
                rule = rule_dict['security_group_rule']
                tenant_id = self._get_tenant_id_for_create(context, rule)
                db = SecurityGroupRule(
                    id=utils.str_uuid(),
                    tenant_id=tenant_id,
                    security_group_id=rule['security_group_id'],
                    direction=rule['direction'],
                    external_id=rule.get('external_id'),
                    source_group_id=rule.get('source_group_id'),
                    ethertype=rule['ethertype'],
                    protocol=rule['protocol'],
                    port_range_min=rule['port_range_min'],
                    port_range_max=rule['port_range_max'],
                    source_ip_prefix=rule.get('source_ip_prefix'))
                context.session.add(db)
            ret.append(self._make_security_group_rule_dict(db))
        return ret
Example #13
0
    def create_floatingip(self, context, floatingip):
        fip = floatingip['floatingip']
        tenant_id = self._get_tenant_id_for_create(context, fip)
        fip_id = utils.str_uuid()

        f_net_id = fip['floating_network_id']
        if not self._network_is_external(context, f_net_id):
            msg = "Network %s is not a valid external network" % f_net_id
            raise q_exc.BadRequest(resource='floatingip', msg=msg)

        # This external port is never exposed to the tenant.
        # it is used purely for internal system and admin use when
        # managing floating IPs.
        external_port = self.create_port(context.elevated(), {
            'port':
            {'tenant_id': '',  # tenant intentionally not set
             'network_id': f_net_id,
             'mac_address': attributes.ATTR_NOT_SPECIFIED,
             'fixed_ips': attributes.ATTR_NOT_SPECIFIED,
             'admin_state_up': True,
             'device_id': fip_id,
             'device_owner': DEVICE_OWNER_FLOATINGIP,
             'name': ''}})
        # Ensure IP addresses are allocated on external port
        if not external_port['fixed_ips']:
            msg = "Unable to find any IP address on external network"
            # remove the external port
            self.delete_port(context.elevated(), external_port['id'],
                             l3_port_check=False)
            raise q_exc.BadRequest(resource='floatingip', msg=msg)

        floating_ip_address = external_port['fixed_ips'][0]['ip_address']
        try:
            with context.session.begin(subtransactions=True):
                floatingip_db = FloatingIP(
                    id=fip_id,
                    tenant_id=tenant_id,
                    floating_network_id=fip['floating_network_id'],
                    floating_ip_address=floating_ip_address,
                    floating_port_id=external_port['id'])
                fip['tenant_id'] = tenant_id
                # Update association with internal port
                # and define external IP address
                self._update_fip_assoc(context, fip,
                                       floatingip_db, external_port)
                context.session.add(floatingip_db)
        # TODO(salvatore-orlando): Avoid broad catch
        # Maybe by introducing base class for L3 exceptions
        except q_exc.BadRequest:
            LOG.exception("Unable to create Floating ip due to a "
                          "malformed request")
            raise
        except Exception:
            LOG.exception("Floating IP association failed")
            # Remove the port created for internal purposes
            self.delete_port(context.elevated(), external_port['id'],
                             l3_port_check=False)
            raise

        return self._make_floatingip_dict(floatingip_db)
Example #14
0
 def create_category_networkfunction(self, context, category_networkfunction):
     n = category_networkfunction['category_networkfunction']
     tenant_id = self._get_tenant_id_for_create(context, n)
     with context.session.begin(subtransactions=True):
         category_networkfunction = ns_category_networkfunction(id=n.get('id') or utils.str_uuid(),
                                         category_id=n['category_id'],
                                         networkfunction_id=n['networkfunction_id'])
         context.session.add(category_networkfunction)
     return self._make_category_networkfunction_dict(category_networkfunction)
Example #15
0
    def create_floatingip(self, context, floatingip):
        fip = floatingip['floatingip']
        tenant_id = self._get_tenant_id_for_create(context, fip)
        fip_id = utils.str_uuid()

        f_net_id = fip['floating_network_id']
        if not self._network_is_external(context, f_net_id):
            msg = "Network %s is not a valid external network" % f_net_id
            raise q_exc.BadRequest(resource='floatingip', msg=msg)

        # This external port is never exposed to the tenant.
        # it is used purely for internal system and admin use when
        # managing floating IPs.
        external_port = self.create_port(
            context, {
                'port': {
                    'network_id': f_net_id,
                    'mac_address': attributes.ATTR_NOT_SPECIFIED,
                    'fixed_ips': attributes.ATTR_NOT_SPECIFIED,
                    'admin_state_up': True,
                    'device_id': fip_id,
                    'device_owner': DEVICE_OWNER_FLOATINGIP,
                    'name': ''
                }
            })
        # Ensure IP addresses are allocated on external port
        if not external_port['fixed_ips']:
            msg = "Unable to find any IP address on external network"
            # remove the external port
            self.delete_port(context, external_port['id'], l3_port_check=False)
            raise q_exc.BadRequest(resource='floatingip', msg=msg)

        floating_ip_address = external_port['fixed_ips'][0]['ip_address']
        try:
            with context.session.begin(subtransactions=True):
                floatingip_db = FloatingIP(
                    id=fip_id,
                    tenant_id=tenant_id,
                    floating_network_id=fip['floating_network_id'],
                    floating_ip_address=floating_ip_address,
                    floating_port_id=external_port['id'])
                fip['tenant_id'] = tenant_id
                # Update association with internal port
                # and define external IP address
                self._update_fip_assoc(context, fip, floatingip_db,
                                       external_port)
                context.session.add(floatingip_db)
        # TODO(salvatore-orlando): Avoid broad catch
        # Maybe by introducing base class for L3 exceptions
        except Exception:
            LOG.exception("Floating IP association failed")
            # Remove the port created for internal purposes
            self.delete_port(context, external_port['id'], l3_port_check=False)
            raise

        return self._make_floatingip_dict(floatingip_db)
Example #16
0
 def create_metadata(self, context, metadata):
     n = metadata['metadata']
     tenant_id = self._get_tenant_id_for_create(context, n)
     with context.session.begin(subtransactions=True):
         metadata = ns_metadata(id=n.get('id') or utils.str_uuid(),
                                         name=n['name'],
                                         value=n['value'],
                                         image_map_id=n['image_map_id'])
         context.session.add(metadata)
     return self._make_metadata_dict(metadata)
Example #17
0
 def create_personality(self, context, personality):
     n = personality['personality']
     tenant_id = self._get_tenant_id_for_create(context, n)
     with context.session.begin(subtransactions=True):
         personality = ns_personalitie(id=n.get('id') or utils.str_uuid(),
                                                 file_path=n['file_path'],
                                                 file_content=n['file_content'],
                                                 image_map_id=n['image_map_id'])
         context.session.add(personality)
     return self._make_personality_dict(personality)
Example #18
0
 def create_networkfunction(self, context, networkfunction):
     n = networkfunction['networkfunction']
     tenant_id = self._get_tenant_id_for_create(context, n)
     with context.session.begin(subtransactions=True):
         networkfunction = ns_networkfunction(tenant_id=tenant_id,
                                     id=n.get('id') or utils.str_uuid(),
                                     name=n['name'],
                                     description=n['description'],
                                     shared=n['shared'])
         context.session.add(networkfunction)
     return self._make_networkfunction_dict(networkfunction)
Example #19
0
 def create_vendor(self, context, vendor):
     n = vendor['vendor']
     tenant_id = self._get_tenant_id_for_create(context, n)
     with context.session.begin(subtransactions=True):
         vendor = ns_vendor(tenant_id=tenant_id,
                                     id=n.get('id') or utils.str_uuid(),
                                     name=n['name'],
                                     description=n['description'],
                                     shared=n['shared'])
         context.session.add(vendor)
     return self._make_vendor_dict(vendor)
Example #20
0
 def create_category(self, context, category):
     n = category['category']
     tenant_id = self._get_tenant_id_for_create(context, n)
     with context.session.begin(subtransactions=True):
         category = ns_categorie(tenant_id=tenant_id,
                                     id=n.get('id') or utils.str_uuid(),
                                     name=n['name'],
                                     description=n['description'],
                                     shared=n['shared'])
         context.session.add(category)
     return self._make_category_dict(category)
Example #21
0
 def create_chain(self, context, chain):
     n = chain['chain']
     tenant_id = self._get_tenant_id_for_create(context, n)
     with context.session.begin(subtransactions=True):
         chain = ns_chain(tenant_id=tenant_id,
                                     id=n.get('id') or utils.str_uuid(),
                                     name=n['name'],
                                     type=n['type'],
                                     auto_boot=n['auto_boot'])
         context.session.add(chain)
     return self._make_chain_dict(chain)
Example #22
0
    def create_chain_image(self, context, chain_image):
        n = chain_image['chain_image']
        with context.session.begin(subtransactions=True):
            chain_image = ns_chain_image_map(id=n.get('id') or utils.str_uuid(),
                                        name=n['name'],
                                        chain_id=n['chain_id'],
                                        image_map_id=n['image_map_id'],
                                        sequence_number=n['sequence_number'],
					instance_id =n['instance_id'],
					instance_uuid =n['instance_uuid'])
            context.session.add(chain_image)
        return self._make_chain_image_dict(chain_image)
Example #23
0
 def create_chain_image_network(self, context, chain_image_network):
     n = chain_image_network['chain_image_network']
     
     with context.session.begin(subtransactions=True):
         chain_image = self._get_chain_image(context, n["chain_map_id"])
         self._validate_chain_image_network_id(context, chain_image, n['network_id'])
         
         chain_image_network = ns_chain_network_associate(id=n.get('id') or utils.str_uuid(),
                                     chain_map_id=n['chain_map_id'],
                                     network_id=n['network_id'])
         context.session.add(chain_image_network)
     return self._make_chain_image_network_dict(chain_image_network)
Example #24
0
 def create_config_handle(self, context, config_handle):
     n = config_handle['config_handle']
     tenant_id = self._get_tenant_id_for_create(context, n)
     with context.session.begin(subtransactions=True):
         config_handle = ns_config_handle(tenant_id=tenant_id,
                                     id=n.get('id') or utils.str_uuid(),
                                     name=n['name'],
                                     networkfunction_id=n['networkfunction_id'],
                                     status=n['status'],
                                     slug=n['slug'])
         context.session.add(config_handle)
     return self._make_config_handle_dict(config_handle)
Example #25
0
    def create_port(self, context, port):
        p = port['port']
        # NOTE(jkoelker) Get the tenant_id outside of the session to avoid
        #                unneeded db action if the operation raises
        tenant_id = self._get_tenant_id_for_create(context, p)

        with context.session.begin(subtransactions=True):
            network = self._get_network(context, p["network_id"])

            # Ensure that a MAC address is defined and it is unique on the
            # network
            if p['mac_address'] == attributes.ATTR_NOT_SPECIFIED:
                p['mac_address'] = QuantumDbPluginV2._generate_mac(
                    context, p["network_id"])
            else:
                # Ensure that the mac on the network is unique
                if not QuantumDbPluginV2._check_unique_mac(context,
                                                           p["network_id"],
                                                           p['mac_address']):
                    raise q_exc.MacAddressInUse(net_id=p["network_id"],
                                                mac=p['mac_address'])

            # Returns the IP's for the port
            ips = self._allocate_ips_for_port(context, network, port)

            port = models_v2.Port(tenant_id=tenant_id,
                                  name=p['name'],
                                  id=p.get('id') or utils.str_uuid(),
                                  network_id=p['network_id'],
                                  mac_address=p['mac_address'],
                                  admin_state_up=p['admin_state_up'],
                                  status=constants.PORT_STATUS_ACTIVE,
                                  device_id=p['device_id'],
                                  device_owner=p['device_owner'])
            context.session.add(port)

        # Update the allocated IP's
        if ips:
            with context.session.begin(subtransactions=True):
                for ip in ips:
                    LOG.debug("Allocated IP %s (%s/%s/%s)", ip['ip_address'],
                              port['network_id'], ip['subnet_id'], port.id)
                    allocated = models_v2.IPAllocation(
                        network_id=port['network_id'],
                        port_id=port.id,
                        ip_address=ip['ip_address'],
                        subnet_id=ip['subnet_id'],
                        expiration=self._default_allocation_expiration()
                    )
                    context.session.add(allocated)

        return self._make_port_dict(port)
Example #26
0
    def create_subnet(self, context, subnet):
        s = subnet['subnet']
        self._validate_subnet(s)

        net = netaddr.IPNetwork(s['cidr'])
        if s['gateway_ip'] == attributes.ATTR_NOT_SPECIFIED:
            s['gateway_ip'] = str(netaddr.IPAddress(net.first + 1))

        tenant_id = self._get_tenant_id_for_create(context, s)
        with context.session.begin(subtransactions=True):
            network = self._get_network(context, s["network_id"])
            self._validate_subnet_cidr(network, s['cidr'])
            # The 'shared' attribute for subnets is for internal plugin
            # use only. It is not exposed through the API
            subnet = models_v2.Subnet(tenant_id=tenant_id,
                                      id=s.get('id') or utils.str_uuid(),
                                      name=s['name'],
                                      network_id=s['network_id'],
                                      ip_version=s['ip_version'],
                                      cidr=s['cidr'],
                                      enable_dhcp=s['enable_dhcp'],
                                      gateway_ip=s['gateway_ip'],
                                      shared=network.shared)

            # perform allocate pools first, since it might raise an error
            pools = self._allocate_pools_for_subnet(context, s)

            context.session.add(subnet)
            if s['dns_nameservers'] != attributes.ATTR_NOT_SPECIFIED:
                for addr in s['dns_nameservers']:
                    ns = models_v2.DNSNameServer(address=addr,
                                                 subnet_id=subnet.id)
                    context.session.add(ns)

            if s['host_routes'] != attributes.ATTR_NOT_SPECIFIED:
                for rt in s['host_routes']:
                    route = models_v2.Route(subnet_id=subnet.id,
                                            destination=rt['destination'],
                                            nexthop=rt['nexthop'])
                    context.session.add(route)
            for pool in pools:
                ip_pool = models_v2.IPAllocationPool(subnet=subnet,
                                                     first_ip=pool['start'],
                                                     last_ip=pool['end'])
                context.session.add(ip_pool)
                ip_range = models_v2.IPAvailabilityRange(
                    ipallocationpool=ip_pool,
                    first_ip=pool['start'],
                    last_ip=pool['end'])
                context.session.add(ip_range)

        return self._make_subnet_dict(subnet)
Example #27
0
 def create_network(self, context, network):
     n = network['network']
     # NOTE(jkoelker) Get the tenant_id outside of the session to avoid
     #                unneeded db action if the operation raises
     tenant_id = self._get_tenant_id_for_create(context, n)
     with context.session.begin():
         network = models_v2.Network(tenant_id=tenant_id,
                                     id=n.get('id') or utils.str_uuid(),
                                     name=n['name'],
                                     admin_state_up=n['admin_state_up'],
                                     status="ACTIVE")
         context.session.add(network)
     return self._make_network_dict(network)
Example #28
0
 def create_chain_image_conf(self, context, chain_image_conf):
     n = chain_image_conf['chain_image_conf']
     
     with context.session.begin(subtransactions=True):
         chain_image = self._get_chain_image(context, n["chain_map_id"])
         #self._validate_chain_image_conf_id(context, chain_image, n['networkfunction_id'])
         
         chain_image_conf = ns_chain_configuration_associate(id=n.get('id') or utils.str_uuid(),
                                     chain_map_id=n['chain_map_id'],
                                     networkfunction_id=n['networkfunction_id'],
                                     config_handle_id=n['config_handle_id'])
         context.session.add(chain_image_conf)
     return self._make_chain_image_conf_dict(chain_image_conf)
Example #29
0
 def create_session(self, context, session):
     """ handle creation of a single session """
     # single request processing
     s = session['session']
     # NOTE(jkoelker) Get the tenant_id outside of the session to avoid
     #                unneeded db action if the operation raises
     tenant_id = self._get_tenant_id_for_create(context, s)
     with context.session.begin(subtransactions=True):
         session = LB_Session_Persistance(id=s.get('id') or utils.str_uuid(),
                                     type=s['type'],
                                     cookie_name=s['cookie_name'])
         context.session.add(session)
     return self._make_session_dict(session)
Example #30
0
 def create_image(self, context, image):
     n = image['image']
     tenant_id = self._get_tenant_id_for_create(context, n)
     with context.session.begin(subtransactions=True):
         image = ns_image_map(tenant_id=tenant_id,
                                     id=n.get('id') or utils.str_uuid(),
                                     name=n['name'],
                                     category_id=n['category_id'],
                                     vendor_id=n['vendor_id'],
                                     flavor_id=n['flavor_id'],
                                     security_group_id=n['security_group_id'],
                                     image_id=n['image_id'],
                                     shared=n['shared'])
         context.session.add(image)
     return self._make_image_dict(image)
Example #31
0
 def create_configuration(self, context, configuration):
     """ handle creation of a single configuration """
     # single request processing
     s = configuration['configuration']
     # NOTE(jkoelker) Get the tenant_id outside of the session to avoid
     #                unneeded db action if the operation raises
     tenant_id = self._get_tenant_id_for_create(context, s)
     with context.session.begin(subtransactions=True):
         configuration = LB_Logical_app(tenant_id=tenant_id,
                                     id=s.get('id') or utils.str_uuid(),
                                     name=s['name'],
                                     status='In-Active',
                                     category_id=s['category_id'])
         context.session.add(configuration)
     return self._make_configuration_dict(configuration)
Example #32
0
 def create_network(self, context, network):
     """ handle creation of a single network """
     # single request processing
     n = network['network']
     # NOTE(jkoelker) Get the tenant_id outside of the session to avoid
     #                unneeded db action if the operation raises
     tenant_id = self._get_tenant_id_for_create(context, n)
     with context.session.begin(subtransactions=True):
         network = models_v2.Network(tenant_id=tenant_id,
                                     id=n.get('id') or utils.str_uuid(),
                                     name=n['name'],
                                     admin_state_up=n['admin_state_up'],
                                     shared=n['shared'],
                                     status=constants.NET_STATUS_ACTIVE)
         context.session.add(network)
     return self._make_network_dict(network)
Example #33
0
 def create_member(self, context, member):
     """ handle creation of a single member """
     # single request processing
     s = member['member']
     # NOTE(jkoelker) Get the tenant_id outside of the session to avoid
     #                unneeded db action if the operation raises
     tenant_id = self._get_tenant_id_for_create(context, s)
     with context.session.begin(subtransactions=True):
         member = LB_Pool_Member(tenant_id=tenant_id,
                                     id=s.get('id') or utils.str_uuid(),
                                     name=s['name'],
                                     ip_address=s['ip_address'],
                                     pool_id=s['pool_id'],
                                     port_no=s['port_no'],
                                     weight=s['weight'],
                                     status=1,
                                     admin_status=1)
         context.session.add(member)
     return self._make_member_dict(member)
Example #34
0
 def create_pool(self, context, pool):
     """ handle creation of a single pool """
     # single request processing
     s = pool['pool']
     # NOTE(jkoelker) Get the tenant_id outside of the session to avoid
     #                unneeded db action if the operation raises
     tenant_id = self._get_tenant_id_for_create(context, s)
     with context.session.begin(subtransactions=True):
         pool = LB_Pool(tenant_id=tenant_id,
                                     id=s.get('id') or utils.str_uuid(),
                                     name=s['name'],
                                     description=s['description'],
                                     protocol=s['protocol'],
                                     lb_method=s['lb_method'],
                                     status=1,
                                     admin_status=1,
                                     subnet_id=s['subnet_id'])
         context.session.add(pool)
     return self._make_pool_dict(pool)
Example #35
0
 def create_router(self, context, router):
     r = router['router']
     has_gw_info = False
     if 'external_gateway_info' in r:
         has_gw_info = True
         gw_info = r['external_gateway_info']
         del r['external_gateway_info']
     tenant_id = self._get_tenant_id_for_create(context, r)
     with context.session.begin(subtransactions=True):
         # pre-generate id so it will be available when
         # configuring external gw port
         router_db = Router(id=utils.str_uuid(),
                            tenant_id=tenant_id,
                            name=r['name'],
                            admin_state_up=r['admin_state_up'],
                            status="ACTIVE")
         context.session.add(router_db)
         if has_gw_info:
             self._update_router_gw_info(context, router_db['id'], gw_info)
     return self._make_router_dict(router_db)
Example #36
0
 def create_router(self, context, router):
     r = router['router']
     has_gw_info = False
     if 'external_gateway_info' in r:
         has_gw_info = True
         gw_info = r['external_gateway_info']
         del r['external_gateway_info']
     tenant_id = self._get_tenant_id_for_create(context, r)
     with context.session.begin(subtransactions=True):
         # pre-generate id so it will be available when
         # configuring external gw port
         router_db = Router(id=utils.str_uuid(),
                            tenant_id=tenant_id,
                            name=r['name'],
                            admin_state_up=r['admin_state_up'],
                            status="ACTIVE")
         context.session.add(router_db)
         if has_gw_info:
             self._update_router_gw_info(context, router_db['id'], gw_info)
     return self._make_router_dict(router_db)
Example #37
0
    def create_packet_filter(self, context, packet_filter):
        pf = packet_filter['packet_filter']
        tenant_id = self._get_tenant_id_for_create(context, pf)

        # validate network ownership
        super(NECPluginV2Base, self).get_network(context, pf['network_id'])
        if pf.get('in_port') != attributes.ATTR_NOT_SPECIFIED:
            # validate port ownership
            super(NECPluginV2Base, self).get_port(context, pf['in_port'])

        params = {
            'tenant_id': tenant_id,
            'id': pf.get('id') or utils.str_uuid(),
            'network_id': pf['network_id'],
            'priority': pf['priority'],
            'action': pf['action'],
            'admin_state_up': pf.get('admin_state_up', True),
            'status': "ACTIVE"
        }
        conditions = {
            'in_port': '',
            'src_mac': '',
            'dst_mac': '',
            'eth_type': 0,
            'src_cidr': '',
            'dst_cidr': '',
            'src_port': 0,
            'dst_port': 0,
            'protocol': ''
        }
        for key, default in conditions.items():
            if pf.get(key) == attributes.ATTR_NOT_SPECIFIED:
                params.update({key: default})
            else:
                params.update({key: pf.get(key)})

        with context.session.begin():
            pf_entry = nmodels.PacketFilter(**params)
            context.session.add(pf_entry)
        return self._make_packet_filter_dict(pf_entry)
Example #38
0
 def create_vip(self, context, vip):
     """ handle creation of a single vip """
     # single request processing
     s = vip['vip']
     # NOTE(jkoelker) Get the tenant_id outside of the session to avoid
     #                unneeded db action if the operation raises
     tenant_id = self._get_tenant_id_for_create(context, s)
     with context.session.begin(subtransactions=True):
         vip = LB_Virtual_IP(tenant_id=tenant_id,
                                     id=s.get('id') or utils.str_uuid(),
                                     name=s['name'],
                                     description=s['description'],
                                     port_no=s['port_no'],
                                     protocol=s['protocol'],
                                     connection_limit=s['connection_limit'],
                                     status=1,
                                     admin_status=1,
                                     session_persistance_id=s['session_persistance_id'],
                                     config_handle_id=s['config_handle_id'],
                                     pool_id=s['pool_id'])
         context.session.add(vip)
     return self._make_vip_dict(vip)
Example #39
0
 def create_monitor(self, context, monitor):
     """ handle creation of a single monitor """
     # single request processing
     s = monitor['monitor']
     # NOTE(jkoelker) Get the tenant_id outside of the session to avoid
     #                unneeded db action if the operation raises
     tenant_id = self._get_tenant_id_for_create(context, s)
     with context.session.begin(subtransactions=True):
         monitor = LB_Health_Monitor(tenant_id=tenant_id,
                                     id=s.get('id') or utils.str_uuid(),
                                     name=s['name'],
                                     pool_id=s['pool_id'],
                                     type=s['type'],
                                     delay=s['delay'],
                                     timeout=s['timeout'],
                                     max_retries=s['max_retries'],
                                     http_method=s['http_method'],
                                     url_path=s['url_path'],
                                     expected_codes=s['expected_codes'],
                                     status=1,
                                     admin_status=1)
         context.session.add(monitor)
     return self._make_monitor_dict(monitor)
Example #40
0
 def test_create_floatingip_invalid_fixed_ip_address_returns_400(self):
     # API-level test - no need to create all objects for l3 plugin
     res = self._create_floatingip('json', utils.str_uuid(),
                                   utils.str_uuid(), 'iamnotnanip')
     self.assertEqual(res.status_int, 400)
Example #41
0
 def get_ofc_item_random_params(self):
     """create random parameters for ofc_item test"""
     ofc_id = utils.str_uuid()
     quantum_id = utils.str_uuid()
     none = utils.str_uuid()
     return ofc_id, quantum_id, none
Example #42
0
 def test_create_floatingip_invalid_floating_port_id_returns_400(self):
     # API-level test - no need to create all objects for l3 plugin
     res = self._create_floatingip('json', utils.str_uuid(), 'iamnotanuuid',
                                   '192.168.0.1')
     self.assertEqual(res.status_int, 400)