pvc/daemon-common/network.py

#!/usr/bin/env python3

# network.py - PVC client function library, Network fuctions
# Part of the Parallel Virtual Cluster (PVC) system
#
#    Copyright (C) 2018-2021 Joshua M. Boniface <joshua@boniface.me>
#
#    This program is free software: you can redistribute it and/or modify
#    it under the terms of the GNU General Public License as published by
#    the Free Software Foundation, version 3.
#
#    This program is distributed in the hope that it will be useful,
#    but WITHOUT ANY WARRANTY; without even the implied warranty of
#    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
#    GNU General Public License for more details.
#
#    You should have received a copy of the GNU General Public License
#    along with this program.  If not, see <https://www.gnu.org/licenses/>.
#
###############################################################################

import re

import daemon_lib.common as common


#
# Cluster search functions
#
def getClusterNetworkList(zkhandler):
    # Get a list of VNIs by listing the children of /networks
    vni_list = zkhandler.children('base.network')
    description_list = []
    # For each VNI, get the corresponding description from the data
    for vni in vni_list:
        description_list.append(zkhandler.read(('network', vni)))
    return vni_list, description_list


def searchClusterByVNI(zkhandler, vni):
    try:
        # Get the lists
        vni_list, description_list = getClusterNetworkList(zkhandler)
        # We're looking for UUID, so find that element ID
        index = vni_list.index(vni)
        # Get the name_list element at that index
        description = description_list[index]
    except ValueError:
        # We didn't find anything
        return None

    return description


def searchClusterByDescription(zkhandler, description):
    try:
        # Get the lists
        vni_list, description_list = getClusterNetworkList(zkhandler)
        # We're looking for name, so find that element ID
        index = description_list.index(description)
        # Get the uuid_list element at that index
        vni = vni_list[index]
    except ValueError:
        # We didn't find anything
        return None

    return vni


def getNetworkVNI(zkhandler, network):
    # Validate and obtain alternate passed value
    if network.isdigit():
        net_description = searchClusterByVNI(zkhandler, network)
        net_vni = searchClusterByDescription(zkhandler, net_description)
    else:
        net_vni = searchClusterByDescription(zkhandler, network)
        net_description = searchClusterByVNI(zkhandler, net_vni)

    return net_vni


def getNetworkDescription(zkhandler, network):
    # Validate and obtain alternate passed value
    if network.isdigit():
        net_description = searchClusterByVNI(zkhandler, network)
        net_vni = searchClusterByDescription(zkhandler, net_description)
    else:
        net_vni = searchClusterByDescription(zkhandler, network)
        net_description = searchClusterByVNI(zkhandler, net_vni)

    return net_description


def getNetworkDHCPLeases(zkhandler, vni):
    # Get a list of DHCP leases by listing the children of /networks/<vni>/dhcp4_leases
    leases = zkhandler.children(('network.lease', vni))
    return sorted(leases)


def getNetworkDHCPReservations(zkhandler, vni):
    # Get a list of DHCP reservations by listing the children of /networks/<vni>/dhcp4_reservations
    reservations = zkhandler.children(('network.reservation', vni))
    return sorted(reservations)


def getNetworkACLs(zkhandler, vni, _direction):
    # Get the (sorted) list of active ACLs
    if _direction == 'both':
        directions = ['in', 'out']
    else:
        directions = [_direction]

    full_acl_list = []
    for direction in directions:
        unordered_acl_list = zkhandler.children((f'network.rule.{direction}', vni))
        if len(unordered_acl_list) < 1:
            continue

        ordered_acls = dict()
        for acl in unordered_acl_list:
            order = zkhandler.read((f'network.rule.{direction}', vni, 'rule.order', acl))
            if order is None:
                continue
            ordered_acls[order] = acl

        for order in sorted(ordered_acls.keys()):
            rule = zkhandler.read((f'network.rule.{direction}', vni, 'rule.rule', acl))
            if rule is None:
                continue
            full_acl_list.append({'direction': direction, 'order': int(order), 'description': ordered_acls[order], 'rule': rule})

    return full_acl_list


def getNetworkInformation(zkhandler, vni):
    description = zkhandler.read(('network', vni))
    nettype = zkhandler.read(('network.type', vni))
    domain = zkhandler.read(('network.domain', vni))
    name_servers = zkhandler.read(('network.nameservers', vni))
    ip6_network = zkhandler.read(('network.ip6.network', vni))
    ip6_gateway = zkhandler.read(('network.ip6.gateway', vni))
    dhcp6_flag = zkhandler.read(('network.ip6.dhcp', vni))
    ip4_network = zkhandler.read(('network.ip4.network', vni))
    ip4_gateway = zkhandler.read(('network.ip4.gateway', vni))
    dhcp4_flag = zkhandler.read(('network.ip4.dhcp', vni))
    dhcp4_start = zkhandler.read(('network.ip4.dhcp_start', vni))
    dhcp4_end = zkhandler.read(('network.ip4.dhcp_end', vni))

    # Construct a data structure to represent the data
    network_information = {
        'vni': int(vni),
        'description': description,
        'type': nettype,
        'domain': domain,
        'name_servers': name_servers.split(','),
        'ip6': {
            'network': ip6_network,
            'gateway': ip6_gateway,
            'dhcp_flag': dhcp6_flag,
        },
        'ip4': {
            'network': ip4_network,
            'gateway': ip4_gateway,
            'dhcp_flag': dhcp4_flag,
            'dhcp_start': dhcp4_start,
            'dhcp_end': dhcp4_end
        }
    }
    return network_information


def getDHCPLeaseInformation(zkhandler, vni, mac_address):
    # Check whether this is a dynamic or static lease
    if zkhandler.exists(('network.lease', vni, 'lease', mac_address)):
        type_key = 'lease'
    elif zkhandler.exists(('network.reservation', vni, 'reservation', mac_address)):
        type_key = 'reservation'
    else:
        return None

    hostname = zkhandler.read((f'network.{type_key}', vni, f'{type_key}.hostname', mac_address))
    ip4_address = zkhandler.read((f'network.{type_key}', vni, f'{type_key}.ip', mac_address))
    if type_key == 'lease':
        timestamp = zkhandler.read((f'network.{type_key}', vni, f'{type_key}.expiry', mac_address))
    else:
        timestamp = 'static'

    # Construct a data structure to represent the data
    lease_information = {
        'hostname': hostname,
        'ip4_address': ip4_address,
        'mac_address': mac_address,
        'timestamp': timestamp
    }
    return lease_information


def getACLInformation(zkhandler, vni, direction, acl):
    order = zkhandler.read((f'network.rule.{direction}', vni, 'rule.order', acl))
    rule = zkhandler.read((f'network.rule.{direction}', vni, 'rule.rule', acl))

    # Construct a data structure to represent the data
    acl_information = {
        'order': order,
        'description': acl,
        'rule': rule,
        'direction': direction
    }
    return acl_information


def isValidMAC(macaddr):
    allowed = re.compile(r'(^([0-9A-F]{2}[:]){5}([0-9A-F]{2})$)', re.VERBOSE | re.IGNORECASE)

    if allowed.match(macaddr):
        return True
    else:
        return False


def isValidIP(ipaddr):
    ip4_blocks = str(ipaddr).split(".")
    if len(ip4_blocks) == 4:
        for block in ip4_blocks:
            # Check if number is digit, if not checked before calling this function
            if not block.isdigit():
                return False
            tmp = int(block)
            if 0 > tmp > 255:
                return False
        return True
    return False


#
# Direct functions
#
def add_network(zkhandler, vni, description, nettype,
                domain, name_servers, ip4_network, ip4_gateway, ip6_network, ip6_gateway,
                dhcp4_flag, dhcp4_start, dhcp4_end):
    # Ensure start and end DHCP ranges are set if the flag is set
    if dhcp4_flag and (not dhcp4_start or not dhcp4_end):
        return False, 'ERROR: DHCPv4 start and end addresses are required for a DHCPv4-enabled network.'

    # Check if a network with this VNI or description already exists
    if zkhandler.exists(('network', vni)):
        return False, 'ERROR: A network with VNI "{}" already exists!'.format(vni)

    for network in zkhandler.children('base.network'):
        network_description = zkhandler.read(('network', network))
        if network_description == description:
            return False, 'ERROR: A network with description "{}" already exists!'.format(description)

    # We're generating the default gateway to be ip6_network::1/YY
    if ip6_network:
        dhcp6_flag = 'True'
        if not ip6_gateway:
            ip6_netpart, ip6_maskpart = ip6_network.split('/')
            ip6_gateway = '{}1'.format(ip6_netpart)
    else:
        dhcp6_flag = 'False'

    if nettype in ['managed'] and not domain:
        domain = '{}.local'.format(description)

    # Add the new network to Zookeeper
    result = zkhandler.write([
        (('network', vni), description),
        (('network.type', vni), nettype),
        (('network.domain', vni), domain),
        (('network.nameservers', vni), name_servers),
        (('network.ip6.network', vni), ip6_network),
        (('network.ip6.gateway', vni), ip6_gateway),
        (('network.ip6.dhcp', vni), dhcp6_flag),
        (('network.ip4.network', vni), ip4_network),
        (('network.ip4.gateway', vni), ip4_gateway),
        (('network.ip4.dhcp', vni), dhcp4_flag),
        (('network.ip4.dhcp_start', vni), dhcp4_start),
        (('network.ip4.dhcp_end', vni), dhcp4_end),
        (('network.lease', vni), ''),
        (('network.reservation', vni), ''),
        (('network.rule', vni), ''),
        (('network.rule.in', vni), ''),
        (('network.rule.out', vni), '')
    ])

    if result:
        return True, 'Network "{}" added successfully!'.format(description)
    else:
        return False, 'ERROR: Failed to add network.'


def modify_network(zkhandler, vni, description=None, domain=None, name_servers=None,
                   ip4_network=None, ip4_gateway=None, ip6_network=None, ip6_gateway=None,
                   dhcp4_flag=None, dhcp4_start=None, dhcp4_end=None):
    # Add the modified parameters to Zookeeper
    update_data = list()
    if description is not None:
        update_data.append((('network', vni), description))
    if domain is not None:
        update_data.append((('network.domain', vni), domain))
    if name_servers is not None:
        update_data.append((('network.nameservers', vni), name_servers))
    if ip4_network is not None:
        update_data.append((('network.ip4.network', vni), ip4_network))
    if ip4_gateway is not None:
        update_data.append((('network.ip4.gateway', vni), ip4_gateway))
    if ip6_network is not None:
        update_data.append((('network.ip6.network', vni), ip6_network))
        if ip6_network:
            update_data.append((('network.ip6.dhcp', vni), 'True'))
        else:
            update_data.append((('network.ip6.dhcp', vni), 'False'))
    if ip6_gateway is not None:
        update_data.append((('network.ip6.gateway', vni), ip6_gateway))
    else:
        # If we're changing the network, but don't also specify the gateway,
        # generate a new one automatically
        if ip6_network:
            ip6_netpart, ip6_maskpart = ip6_network.split('/')
            ip6_gateway = '{}1'.format(ip6_netpart)
            update_data.append((('network.ip6.gateway', vni), ip6_gateway))
    if dhcp4_flag is not None:
        update_data.append((('network.ip4.dhcp', vni), dhcp4_flag))
    if dhcp4_start is not None:
        update_data.append((('network.ip4.dhcp_start', vni), dhcp4_start))
    if dhcp4_end is not None:
        update_data.append((('network.ip4.dhcp_end', vni), dhcp4_end))

    zkhandler.write(update_data)

    return True, 'Network "{}" modified successfully!'.format(vni)


def remove_network(zkhandler, network):
    # Validate and obtain alternate passed value
    vni = getNetworkVNI(zkhandler, network)
    description = getNetworkDescription(zkhandler, network)
    if not vni:
        return False, 'ERROR: Could not find network "{}" in the cluster!'.format(network)

    # Delete the configuration
    zkhandler.delete([
        ('network', vni)
    ])

    return True, 'Network "{}" removed successfully!'.format(description)


def add_dhcp_reservation(zkhandler, network, ipaddress, macaddress, hostname):
    # Validate and obtain standard passed value
    net_vni = getNetworkVNI(zkhandler, network)
    if not net_vni:
        return False, 'ERROR: Could not find network "{}" in the cluster!'.format(network)

    # Use lowercase MAC format exclusively
    macaddress = macaddress.lower()

    if not isValidMAC(macaddress):
        return False, 'ERROR: MAC address "{}" is not valid! Always use ":" as a separator.'.format(macaddress)

    if not isValidIP(ipaddress):
        return False, 'ERROR: IP address "{}" is not valid!'.format(macaddress)

    if zkhandler.exists(('network.reservation', net_vni, 'reservation', macaddress)):
        return False, 'ERROR: A reservation with MAC "{}" already exists!'.format(macaddress)

    # Add the new static lease to ZK
    zkhandler.write([
        (('network.reservation', net_vni, 'reservation', macaddress), 'static'),
        (('network.reservation', net_vni, 'reservation.hostname', macaddress), hostname),
        (('network.reservation', net_vni, 'reservation.ip', macaddress), ipaddress),
    ])

    return True, 'DHCP reservation "{}" added successfully!'.format(macaddress)


def remove_dhcp_reservation(zkhandler, network, reservation):
    # Validate and obtain standard passed value
    net_vni = getNetworkVNI(zkhandler, network)
    if not net_vni:
        return False, 'ERROR: Could not find network "{}" in the cluster!'.format(network)

    match_description = ''

    # Check if the reservation matches a static reservation description, a mac, or an IP address currently in the database
    dhcp4_reservations_list = getNetworkDHCPReservations(zkhandler, net_vni)
    for macaddr in dhcp4_reservations_list:
        hostname = zkhandler.read(('network.reservation', net_vni, 'reservation.hostname', macaddr))
        ipaddress = zkhandler.read(('network.reservation', net_vni, 'reservation.ip', macaddr))
        if reservation == macaddr or reservation == hostname or reservation == ipaddress:
            match_description = macaddr
            lease_type_zk = 'reservation'
            lease_type_human = 'static reservation'

    # Check if the reservation matches a dynamic reservation description, a mac, or an IP address currently in the database
    dhcp4_leases_list = getNetworkDHCPLeases(zkhandler, net_vni)
    for macaddr in dhcp4_leases_list:
        hostname = zkhandler.read(('network.lease', net_vni, 'lease.hostname', macaddr))
        ipaddress = zkhandler.read(('network.lease', net_vni, 'lease.ip', macaddr))
        if reservation == macaddr or reservation == hostname or reservation == ipaddress:
            match_description = macaddr
            lease_type_zk = 'lease'
            lease_type_human = 'dynamic lease'

    if not match_description:
        return False, 'ERROR: No DHCP reservation or lease exists matching "{}"!'.format(reservation)

    # Remove the entry from zookeeper
    zkhandler.delete([
        (f'network.{lease_type_zk}', net_vni, f'{lease_type_zk}', match_description),
    ])

    return True, 'DHCP {} "{}" removed successfully!'.format(lease_type_human, match_description)


def add_acl(zkhandler, network, direction, description, rule, order):
    # Validate and obtain standard passed value
    net_vni = getNetworkVNI(zkhandler, network)
    if not net_vni:
        return False, 'ERROR: Could not find network "{}" in the cluster!'.format(network)

    # Check if the ACL matches a description currently in the database
    match_description = ''
    full_acl_list = getNetworkACLs(zkhandler, net_vni, 'both')
    for acl in full_acl_list:
        if acl['description'] == description:
            match_description = acl['description']

    if match_description:
        return False, 'ERROR: A rule with description "{}" already exists!'.format(description)

    # Change direction to something more usable
    if direction:
        direction = "in"
    else:
        direction = "out"

    # Handle reordering
    full_acl_list = getNetworkACLs(zkhandler, net_vni, direction)
    acl_list_length = len(full_acl_list)
    # Set order to len
    if not order or int(order) > acl_list_length:
        order = acl_list_length
    # Convert passed-in order to an integer
    else:
        order = int(order)

    # Insert into the array at order-1
    full_acl_list.insert(order, {'direction': direction, 'description': description, 'rule': rule})

    # Update the existing ordering
    for idx, acl in enumerate(full_acl_list):
        if acl['description'] == description:
            continue

        if idx == acl['order']:
            continue
        else:
            zkhandler.write([
                ((f'network.rule.{direction}', net_vni, 'rule.order', acl['description']), idx)
            ])

    # Add the new rule
    zkhandler.write([
        ((f'network.rule.{direction}', net_vni, 'rule', description), ''),
        ((f'network.rule.{direction}', net_vni, 'rule.order', description), order),
        ((f'network.rule.{direction}', net_vni, 'rule.rule', description), rule),
    ])

    return True, 'Firewall rule "{}" added successfully!'.format(description)


def remove_acl(zkhandler, network, description):
    # Validate and obtain standard passed value
    net_vni = getNetworkVNI(zkhandler, network)
    if not net_vni:
        return False, 'ERROR: Could not find network "{}" in the cluster!'.format(network)

    match_description = ''

    # Check if the ACL matches a description currently in the database
    acl_list = getNetworkACLs(zkhandler, net_vni, 'both')
    for acl in acl_list:
        if acl['description'] == description:
            match_description = acl['description']
            match_direction = acl['direction']

    if not match_description:
        return False, 'ERROR: No firewall rule exists matching description "{}"!'.format(description)

    # Remove the entry from zookeeper
    zkhandler.delete([
        (f'network.rule.{match_direction}', net_vni, 'rule', match_description)
    ])

    # Update the existing ordering
    updated_acl_list = getNetworkACLs(zkhandler, net_vni, match_direction)
    for idx, acl in enumerate(updated_acl_list):
        if acl['description'] == description:
            continue

        if idx == acl['order']:
            continue
        else:
            zkhandler.write([
                ((f'network.rule.{match_direction}', net_vni, 'rule.order', acl['description']), idx),
            ])

    return True, 'Firewall rule "{}" removed successfully!'.format(match_description)


def get_info(zkhandler, network):
    # Validate and obtain alternate passed value
    net_vni = getNetworkVNI(zkhandler, network)
    if not net_vni:
        return False, 'ERROR: Could not find network "{}" in the cluster!'.format(network)

    network_information = getNetworkInformation(zkhandler, network)
    if not network_information:
        return False, 'ERROR: Could not get information about network "{}"'.format(network)

    return True, network_information


def get_list(zkhandler, limit, is_fuzzy=True):
    net_list = []
    full_net_list = zkhandler.children('base.network')

    for net in full_net_list:
        description = zkhandler.read(('network', net))
        if limit:
            try:
                if not is_fuzzy:
                    limit = '^' + limit + '$'

                if re.match(limit, net):
                    net_list.append(getNetworkInformation(zkhandler, net))
                if re.match(limit, description):
                    net_list.append(getNetworkInformation(zkhandler, net))
            except Exception as e:
                return False, 'Regex Error: {}'.format(e)
        else:
            net_list.append(getNetworkInformation(zkhandler, net))

    return True, net_list


def get_list_dhcp(zkhandler, network, limit, only_static=False, is_fuzzy=True):
    # Validate and obtain alternate passed value
    net_vni = getNetworkVNI(zkhandler, network)
    if not net_vni:
        return False, 'ERROR: Could not find network "{}" in the cluster!'.format(network)

    dhcp_list = []

    if only_static:
        full_dhcp_list = getNetworkDHCPReservations(zkhandler, net_vni)
    else:
        full_dhcp_list = getNetworkDHCPReservations(zkhandler, net_vni)
        full_dhcp_list += getNetworkDHCPLeases(zkhandler, net_vni)

    if limit:
        try:
            if not is_fuzzy:
                limit = '^' + limit + '$'

            # Implcitly assume fuzzy limits
            if not re.match(r'\^.*', limit):
                limit = '.*' + limit
            if not re.match(r'.*\$', limit):
                limit = limit + '.*'
        except Exception as e:
            return False, 'Regex Error: {}'.format(e)

    for lease in full_dhcp_list:
        valid_lease = False
        if limit:
            if re.match(limit, lease):
                valid_lease = True
            if re.match(limit, lease):
                valid_lease = True
        else:
            valid_lease = True

        if valid_lease:
            dhcp_list.append(getDHCPLeaseInformation(zkhandler, net_vni, lease))

    return True, dhcp_list


def get_list_acl(zkhandler, network, limit, direction, is_fuzzy=True):
    # Validate and obtain alternate passed value
    net_vni = getNetworkVNI(zkhandler, network)
    if not net_vni:
        return False, 'ERROR: Could not find network "{}" in the cluster!'.format(network)

    # Change direction to something more usable
    if direction is None:
        direction = "both"
    elif direction is True:
        direction = "in"
    elif direction is False:
        direction = "out"

    acl_list = []
    full_acl_list = getNetworkACLs(zkhandler, net_vni, direction)

    if limit:
        try:
            if not is_fuzzy:
                limit = '^' + limit + '$'

            # Implcitly assume fuzzy limits
            if not re.match(r'\^.*', limit):
                limit = '.*' + limit
            if not re.match(r'.*\$', limit):
                limit = limit + '.*'
        except Exception as e:
            return False, 'Regex Error: {}'.format(e)

    for acl in full_acl_list:
        valid_acl = False
        if limit:
            if re.match(limit, acl['description']):
                valid_acl = True
        else:
            valid_acl = True

        if valid_acl:
            acl_list.append(acl)

    return True, acl_list


#
# SR-IOV functions
#
# These are separate since they don't work like other network types
#
def getSRIOVPFInformation(zkhandler, node, pf):
    mtu = zkhandler.read(('node.sriov.pf', node, 'sriov_pf.mtu', pf))

    retcode, vf_list = get_list_sriov_vf(zkhandler, node, pf)
    if retcode:
        vfs = common.sortInterfaceNames([vf['phy'] for vf in vf_list if vf['pf'] == pf])
    else:
        vfs = []

    # Construct a data structure to represent the data
    pf_information = {
        'phy': pf,
        'mtu': mtu,
        'vfs': vfs,
    }
    return pf_information


def get_info_sriov_pf(zkhandler, node, pf):
    pf_information = getSRIOVPFInformation(zkhandler, node, pf)
    if not pf_information:
        return False, 'ERROR: Could not get information about SR-IOV PF "{}" on node "{}"'.format(pf, node)

    return True, pf_information


def get_list_sriov_pf(zkhandler, node):
    pf_list = list()
    pf_phy_list = zkhandler.children(('node.sriov.pf', node))
    for phy in pf_phy_list:
        retcode, pf_information = get_info_sriov_pf(zkhandler, node, phy)
        if retcode:
            pf_list.append(pf_information)

    return True, pf_list


def getSRIOVVFInformation(zkhandler, node, vf):
    if not zkhandler.exists(('node.sriov.vf', node, 'sriov_vf', vf)):
        return []

    pf = zkhandler.read(('node.sriov.vf', node, 'sriov_vf.pf', vf))
    mtu = zkhandler.read(('node.sriov.vf', node, 'sriov_vf.mtu', vf))
    mac = zkhandler.read(('node.sriov.vf', node, 'sriov_vf.mac', vf))
    vlan_id = zkhandler.read(('node.sriov.vf', node, 'sriov_vf.config.vlan_id', vf))
    vlan_qos = zkhandler.read(('node.sriov.vf', node, 'sriov_vf.config.vlan_qos', vf))
    tx_rate_min = zkhandler.read(('node.sriov.vf', node, 'sriov_vf.config.tx_rate_min', vf))
    tx_rate_max = zkhandler.read(('node.sriov.vf', node, 'sriov_vf.config.tx_rate_max', vf))
    link_state = zkhandler.read(('node.sriov.vf', node, 'sriov_vf.config.link_state', vf))
    spoof_check = zkhandler.read(('node.sriov.vf', node, 'sriov_vf.config.spoof_check', vf))
    trust = zkhandler.read(('node.sriov.vf', node, 'sriov_vf.config.trust', vf))
    query_rss = zkhandler.read(('node.sriov.vf', node, 'sriov_vf.config.query_rss', vf))
    pci_domain = zkhandler.read(('node.sriov.vf', node, 'sriov_vf.pci.domain', vf))
    pci_bus = zkhandler.read(('node.sriov.vf', node, 'sriov_vf.pci.bus', vf))
    pci_slot = zkhandler.read(('node.sriov.vf', node, 'sriov_vf.pci.slot', vf))
    pci_function = zkhandler.read(('node.sriov.vf', node, 'sriov_vf.pci.function', vf))
    used = zkhandler.read(('node.sriov.vf', node, 'sriov_vf.used', vf))
    used_by_domain = zkhandler.read(('node.sriov.vf', node, 'sriov_vf.used_by', vf))

    vf_information = {
        'phy': vf,
        'pf': pf,
        'mtu': mtu,
        'mac': mac,
        'config': {
            'vlan_id': vlan_id,
            'vlan_qos': vlan_qos,
            'tx_rate_min': tx_rate_min,
            'tx_rate_max': tx_rate_max,
            'link_state': link_state,
            'spoof_check': spoof_check,
            'trust': trust,
            'query_rss': query_rss,
        },
        'pci': {
            'domain': pci_domain,
            'bus': pci_bus,
            'slot': pci_slot,
            'function': pci_function,
        },
        'usage': {
            'used': used,
            'domain': used_by_domain,
        }
    }
    return vf_information


def get_info_sriov_vf(zkhandler, node, vf):
    # Verify node is valid
    valid_node = common.verifyNode(zkhandler, node)
    if not valid_node:
        return False, 'ERROR: Specified node "{}" is invalid.'.format(node)

    vf_information = getSRIOVVFInformation(zkhandler, node, vf)
    if not vf_information:
        return False, 'ERROR: Could not find SR-IOV VF "{}" on node "{}"'.format(vf, node)

    return True, vf_information


def get_list_sriov_vf(zkhandler, node, pf=None):
    # Verify node is valid
    valid_node = common.verifyNode(zkhandler, node)
    if not valid_node:
        return False, 'ERROR: Specified node "{}" is invalid.'.format(node)

    vf_list = list()
    vf_phy_list = common.sortInterfaceNames(zkhandler.children(('node.sriov.vf', node)))
    for phy in vf_phy_list:
        retcode, vf_information = get_info_sriov_vf(zkhandler, node, phy)
        if retcode:
            if pf is not None:
                if vf_information['pf'] == pf:
                    vf_list.append(vf_information)
            else:
                vf_list.append(vf_information)

    return True, vf_list


def set_sriov_vf_config(zkhandler, node, vf, vlan_id=None, vlan_qos=None, tx_rate_min=None, tx_rate_max=None, link_state=None, spoof_check=None, trust=None, query_rss=None):
    # Verify node is valid
    valid_node = common.verifyNode(zkhandler, node)
    if not valid_node:
        return False, 'ERROR: Specified node "{}" is invalid.'.format(node)

    # Verify VF is valid
    vf_information = getSRIOVVFInformation(zkhandler, node, vf)
    if not vf_information:
        return False, 'ERROR: Could not find SR-IOV VF "{}" on node "{}".'.format(vf, node)

    update_list = list()

    if vlan_id is not None:
        update_list.append((('node.sriov.vf', node, 'sriov_vf.config.vlan_id', vf), vlan_id))

    if vlan_qos is not None:
        update_list.append((('node.sriov.vf', node, 'sriov_vf.config.vlan_qos', vf), vlan_qos))

    if tx_rate_min is not None:
        update_list.append((('node.sriov.vf', node, 'sriov_vf.config.tx_rate_min', vf), tx_rate_min))

    if tx_rate_max is not None:
        update_list.append((('node.sriov.vf', node, 'sriov_vf.config.tx_rate_max', vf), tx_rate_max))

    if link_state is not None:
        update_list.append((('node.sriov.vf', node, 'sriov_vf.config.link_state', vf), link_state))

    if spoof_check is not None:
        update_list.append((('node.sriov.vf', node, 'sriov_vf.config.spoof_check', vf), spoof_check))

    if trust is not None:
        update_list.append((('node.sriov.vf', node, 'sriov_vf.config.trust', vf), trust))

    if query_rss is not None:
        update_list.append((('node.sriov.vf', node, 'sriov_vf.config.query_rss', vf), query_rss))

    if len(update_list) < 1:
        return False, 'ERROR: No changes to apply.'

    result = zkhandler.write(update_list)
    if result:
        return True, 'Successfully modified configuration of SR-IOV VF "{}" on node "{}".'.format(vf, node)
    else:
        return False, 'Failed to modify configuration of SR-IOV VF "{}" on node "{}".'.format(vf, node)


def set_sriov_vf_vm(zkhandler, vm_uuid, node, vf, vf_macaddr, vf_type):
    # Verify node is valid
    valid_node = common.verifyNode(zkhandler, node)
    if not valid_node:
        return False

    # Verify VF is valid
    vf_information = getSRIOVVFInformation(zkhandler, node, vf)
    if not vf_information:
        return False

    update_list = [
        (('node.sriov.vf', node, 'sriov_vf.used', vf), 'True'),
        (('node.sriov.vf', node, 'sriov_vf.used_by', vf), vm_uuid),
        (('node.sriov.vf', node, 'sriov_vf.mac', vf), vf_macaddr),
    ]

    # Hostdev type SR-IOV prevents the guest from live migrating
    if vf_type == 'hostdev':
        update_list.append(
            (('domain.meta.migrate_method', vm_uuid), 'shutdown')
        )

    zkhandler.write(update_list)

    return True


def unset_sriov_vf_vm(zkhandler, node, vf):
    # Verify node is valid
    valid_node = common.verifyNode(zkhandler, node)
    if not valid_node:
        return False

    # Verify VF is valid
    vf_information = getSRIOVVFInformation(zkhandler, node, vf)
    if not vf_information:
        return False

    update_list = [
        (('node.sriov.vf', node, 'sriov_vf.used', vf), 'False'),
        (('node.sriov.vf', node, 'sriov_vf.used_by', vf), ''),
        (('node.sriov.vf', node, 'sriov_vf.mac', vf), zkhandler.read(('node.sriov.vf', node, 'sriov_vf.phy_mac', vf)))
    ]

    zkhandler.write(update_list)

    return True