from libvirt import ( VIR_NETWORK_SECTION_IP_DHCP_HOST, VIR_NETWORK_UPDATE_AFFECT_CONFIG, VIR_NETWORK_UPDATE_AFFECT_LIVE, VIR_NETWORK_UPDATE_COMMAND_ADD_LAST, VIR_NETWORK_UPDATE_COMMAND_DELETE, VIR_NETWORK_UPDATE_COMMAND_MODIFY, libvirtError) from lxml import etree from vrtManager import util from vrtManager.connection import wvmConnect from vrtManager.IPy import IP def network_size(subnet, dhcp=None): """ Func return gateway, mask and dhcp pool. """ mask = IP(subnet).strNetmask() addr = IP(subnet) gateway = addr[1].strCompressed() if addr.version() == 4: dhcp_pool = [addr[2].strCompressed(), addr[addr.len() - 2].strCompressed()] if addr.version() == 6: mask = mask.lstrip("/") if "/" in mask else mask dhcp_pool = [IP(addr[0].strCompressed() + hex(256)), IP(addr[0].strCompressed() + hex(512 - 1))] if dhcp: return gateway, mask, dhcp_pool else: return gateway, mask, None class wvmNetworks(wvmConnect): def get_networks_info(self): get_networks = self.get_networks() networks = [] for network in get_networks: net = self.get_network(network) net_status = net.isActive() try: net_bridge = net.bridgeName() except libvirtError: net_bridge = util.get_xml_path(net.XMLDesc(0), "/network/forward/interface/@dev") net_forward = util.get_xml_path(net.XMLDesc(0), "/network/forward/@mode") networks.append({"name": network, "status": net_status, "device": net_bridge, "forward": net_forward}) return networks def define_network(self, xml): self.wvm.networkDefineXML(xml) def create_network( self, name, forward, ipv4, gateway, mask, dhcp4, ipv6, gateway6, prefix6, dhcp6, bridge, openvswitch, fixed=False, ): xml = f""" {name}""" if forward in ["nat", "route", "bridge"]: xml += f"""""" if forward == "macvtap": xml += f""" """ else: xml += """""" if openvswitch is True: xml += """""" if forward not in ["bridge", "macvtap"]: if ipv4: xml += f"""""" if dhcp4: xml += f""" """ if fixed: fist_oct = int(dhcp4[0].strip().split(".")[3]) last_oct = int(dhcp4[1].strip().split(".")[3]) for ip in range(fist_oct, last_oct + 1): xml += f"""""" xml += """""" xml += """""" if ipv6: xml += f"""""" if dhcp6: xml += f""" """ xml += """""" xml += """""" xml += """""" self.define_network(xml) net = self.get_network(name) net.create() net.setAutostart(1) class wvmNetwork(wvmConnect): def __init__(self, host, login, passwd, conn, net): wvmConnect.__init__(self, host, login, passwd, conn) self.leases = None self.net = self.get_network(net) self.parent_count = len(self.get_ip_networks()) def get_name(self): return self.net.name() def _XMLDesc(self, flags): return self.net.XMLDesc(flags) def get_autostart(self): return self.net.autostart() def set_autostart(self, value): self.net.setAutostart(value) def is_active(self): return self.net.isActive() def get_uuid(self): return self.net.UUIDString() def get_bridge_device(self): try: return self.net.bridgeName() except: return util.get_xml_path(self._XMLDesc(0), "/network/forward/interface/@dev") def start(self): self.net.create() def stop(self): self.net.destroy() def delete(self): self.net.undefine() def update(self, command, section, xml, parentIndex, flags=0): return self.net.update(command, section, parentIndex, xml, flags) def get_ip_networks(self): ip_networks = dict() xml = self._XMLDesc(0) if util.get_xml_path(xml, "/network/ip") is None: return ip_networks tree = etree.fromstring(xml) ips = tree.findall(".ip") for ip in ips: address_str = ip.get("address") netmask_str = ip.get("netmask") prefix = ip.get("prefix") family = ip.get("family", "ipv4") base = 32 if family == "ipv4" else 128 if prefix: prefix = int(prefix) binstr = (prefix * "1") + ((base - prefix) * "0") netmask_str = str(IP(int(binstr, base=2))) if netmask_str: netmask = IP(netmask_str) gateway = IP(address_str) network = IP(gateway.int() & netmask.int()) netmask_str = netmask_str if family == "ipv4" else str(prefix) ret = IP(str(network) + "/" + netmask_str) else: ret = IP(str(address_str)) ip_networks[family] = ret return ip_networks def get_network_mac(self): xml = self._XMLDesc(0) mac = util.get_xml_path(xml, "/network/mac/@address") return mac def get_network_forward(self): xml = self._XMLDesc(0) fw = util.get_xml_path(xml, "/network/forward/@mode") forward_dev = util.get_xml_path(xml, "/network/forward/@dev") return [fw, forward_dev] def get_dhcp_range(self, family="ipv4"): xml = self._XMLDesc(0) if family == "ipv4": dhcpstart = util.get_xml_path(xml, "/network/ip[not(@family='ipv6')]/dhcp/range[1]/@start") dhcpend = util.get_xml_path(xml, "/network/ip[not(@family='ipv6')]/dhcp/range[1]/@end") if family == "ipv6": dhcpstart = util.get_xml_path(xml, "/network/ip[@family='ipv6']/dhcp/range[1]/@start") dhcpend = util.get_xml_path(xml, "/network/ip[@family='ipv6']/dhcp/range[1]/@end") if not dhcpstart or not dhcpend: return None return [IP(dhcpstart), IP(dhcpend)] def get_dhcp_range_start(self, family="ipv4"): dhcp = self.get_dhcp_range(family) if not dhcp: return None return dhcp[0] def get_dhcp_range_end(self, family="ipv4"): dhcp = self.get_dhcp_range(family) if not dhcp: return None return dhcp[1] def can_pxe(self): xml = self._XMLDesc(0) forward = self.get_network_forward()[0] if forward and forward != "nat": return True return bool(util.get_xml_path(xml, "/network/ip/dhcp/bootp/@file")) def get_dhcp_host_addr(self, family="ipv4"): result = list() tree = etree.fromstring(self._XMLDesc(0)) for ipdhcp in tree.findall("./ip"): if family == "ipv4": if ipdhcp.get("family") is None: hosts = ipdhcp.findall("./dhcp/host") for host in hosts: host_ip = host.get("ip") mac = host.get("mac") name = host.get("name", "") result.append({"ip": host_ip, "mac": mac, "name": name}) return result else: continue if family == "ipv6": hosts = tree.xpath("./ip[@family='ipv6']/dhcp/host") for host in hosts: host_ip = host.get("ip") host_id = host.get("id") name = host.get("name", "") result.append({"ip": host_ip, "id": host_id, "name": name}) return result def modify_dhcp_range(self, range_start, range_end, family="ipv4"): if not self.is_active(): tree = etree.fromstring(self._XMLDesc(0)) if family == "ipv4": dhcp_range = tree.xpath("./ip[not(@family='ipv6')]/dhcp/range") if family == "ipv6": dhcp_range = tree.xpath("./ip[@family='ipv6']/dhcp/range") dhcp_range[0].set("start", range_start) dhcp_range[0].set("end", range_end) self.wvm.networkDefineXML(etree.tostring(tree).decode()) def delete_fixed_address(self, ip, family="ipv4"): tree = etree.fromstring(self._XMLDesc(0)) if family == "ipv4": hosts = tree.xpath("/network/ip[not(@family='ipv6')]/dhcp/host") parent_index = self.parent_count - 2 if family == "ipv6": hosts = tree.xpath("/network/ip[@family='ipv6']/dhcp/host") parent_index = self.parent_count - 1 for h in hosts: if h.get("ip") == ip: if family == "ipv4": new_xml = ''.format(h.get("mac"), h.get("name"), ip) if family == "ipv6": new_xml = ''.format(h.get("id"), h.get("name"), ip) self.update( VIR_NETWORK_UPDATE_COMMAND_DELETE, VIR_NETWORK_SECTION_IP_DHCP_HOST, new_xml, parent_index, VIR_NETWORK_UPDATE_AFFECT_LIVE | VIR_NETWORK_UPDATE_AFFECT_CONFIG, ) break def modify_fixed_address(self, name, address, mac_duid, family="ipv4"): tree = etree.fromstring(self._XMLDesc(0)) if family == "ipv4": new_xml = ''.format(mac_duid, 'name="' + name + '"' if name else "", IP(address)) hosts = tree.xpath("./ip[not(@family='ipv6')]/dhcp/host") compare_var = "mac" parent_index = self.parent_count - 2 if family == "ipv6": new_xml = ''.format(mac_duid, 'name="' + name + '"' if name else "", IP(address)) hosts = tree.xpath("./ip[@family='ipv6']/dhcp/host") compare_var = "id" parent_index = self.parent_count - 1 new_host_xml = etree.fromstring(new_xml) host = None for h in hosts: if h.get(compare_var) == mac_duid: host = h break if host is None: self.update( VIR_NETWORK_UPDATE_COMMAND_ADD_LAST, VIR_NETWORK_SECTION_IP_DHCP_HOST, new_xml, parent_index, VIR_NETWORK_UPDATE_AFFECT_LIVE | VIR_NETWORK_UPDATE_AFFECT_CONFIG, ) else: # change the host if host.get("name") == new_host_xml.get("name") and host.get("ip") == new_host_xml.get("ip"): return False else: self.update( VIR_NETWORK_UPDATE_COMMAND_MODIFY, VIR_NETWORK_SECTION_IP_DHCP_HOST, new_xml, parent_index, VIR_NETWORK_UPDATE_AFFECT_LIVE | VIR_NETWORK_UPDATE_AFFECT_CONFIG, ) def get_qos(self): qos_values = dict() tree = etree.fromstring(self._XMLDesc(0)) qos = tree.xpath("/network/bandwidth") if qos: qos = qos[0] in_qos = qos.find("inbound") if in_qos is not None: in_av = in_qos.get("average") in_peak = in_qos.get("peak") in_burst = in_qos.get("burst") qos_values["inbound"] = {"average": in_av, "peak": in_peak, "burst": in_burst} out_qos = qos.find("outbound") if out_qos is not None: out_av = out_qos.get("average") out_peak = out_qos.get("peak") out_burst = out_qos.get("burst") qos_values["outbound"] = {"average": out_av, "peak": out_peak, "burst": out_burst} return qos_values def set_qos(self, direction, average, peak, burst): if direction == "inbound": xml = f"" elif direction == "outbound": xml = f"" else: raise Exception("Direction must be inbound or outbound") tree = etree.fromstring(self._XMLDesc(0)) band = tree.xpath("/network/bandwidth") if len(band) == 0: xml = f"{xml}" tree.append(etree.fromstring(xml)) else: direct = band[0].find(direction) if direct is not None: parent = direct.getparent() parent.remove(direct) parent.append(etree.fromstring(xml)) else: band[0].append(etree.fromstring(xml)) new_xml = etree.tostring(tree).decode() self.wvm.networkDefineXML(new_xml) def unset_qos(self, direction): tree = etree.fromstring(self._XMLDesc(0)) for direct in tree.xpath(f"/network/bandwidth/{direction}"): parent = direct.getparent() parent.remove(direct) self.wvm.networkDefineXML(etree.tostring(tree).decode()) def edit_network(self, new_xml): self.wvm.networkDefineXML(new_xml) def refresh_dhcp_leases(self): try: self.leases = self.net.DHCPLeases() except Exception as e: self.leases = [] raise "Error getting {} DHCP leases: {}".format(self, e) def get_dhcp_leases(self): if self.leases is None: self.refresh_dhcp_leases() return self.leases