import contextlib
import json
import os.path
import time
try:
from libvirt import (
VIR_DOMAIN_AFFECT_CONFIG,
VIR_DOMAIN_AFFECT_LIVE,
VIR_DOMAIN_INTERFACE_ADDRESSES_SRC_AGENT,
VIR_DOMAIN_RUNNING,
VIR_DOMAIN_XML_SECURE,
VIR_MIGRATE_AUTO_CONVERGE,
VIR_MIGRATE_COMPRESSED,
VIR_MIGRATE_LIVE,
VIR_MIGRATE_OFFLINE,
VIR_MIGRATE_PERSIST_DEST,
VIR_MIGRATE_POSTCOPY,
VIR_MIGRATE_UNDEFINE_SOURCE,
VIR_MIGRATE_UNSAFE,
libvirtError,
)
from libvirt_qemu import VIR_DOMAIN_QEMU_AGENT_COMMAND_DEFAULT, qemuAgentCommand
except Exception:
from libvirt import libvirtError, VIR_DOMAIN_XML_SECURE, VIR_MIGRATE_LIVE
from collections import OrderedDict
from datetime import datetime
from xml.etree import ElementTree
from lxml import etree
from vrtManager import util
from vrtManager.connection import wvmConnect
from vrtManager.storage import wvmStorage, wvmStorages
class wvmInstances(wvmConnect):
def get_instance_status(self, name):
inst = self.get_instance(name)
return inst.info()[0]
def get_instance_memory(self, name):
inst = self.get_instance(name)
mem = util.get_xml_path(inst.XMLDesc(0), "/domain/currentMemory")
return int(mem) // 1024
def get_instance_vcpu(self, name):
inst = self.get_instance(name)
cur_vcpu = util.get_xml_path(inst.XMLDesc(0), "/domain/vcpu/@current")
return cur_vcpu or util.get_xml_path(inst.XMLDesc(0), "/domain/vcpu")
def get_instance_managed_save_image(self, name):
inst = self.get_instance(name)
return inst.hasManagedSaveImage(0)
def get_uuid(self, name):
inst = self.get_instance(name)
return inst.UUIDString()
def start(self, name):
dom = self.get_instance(name)
dom.create()
def shutdown(self, name):
dom = self.get_instance(name)
dom.shutdown()
def force_shutdown(self, name):
dom = self.get_instance(name)
dom.destroy()
def managedsave(self, name):
dom = self.get_instance(name)
dom.managedSave(0)
def managed_save_remove(self, name):
dom = self.get_instance(name)
dom.managedSaveRemove(0)
def suspend(self, name):
dom = self.get_instance(name)
dom.suspend()
def resume(self, name):
dom = self.get_instance(name)
dom.resume()
def moveto(
self,
conn,
name,
live,
unsafe,
undefine,
offline,
autoconverge=False,
compress=False,
postcopy=False,
):
flags = VIR_MIGRATE_PERSIST_DEST
if live and conn.get_status() != 5:
flags |= VIR_MIGRATE_LIVE
if unsafe and conn.get_status() == 1:
flags |= VIR_MIGRATE_UNSAFE
if offline and conn.get_status() == 5:
flags |= VIR_MIGRATE_OFFLINE
if not offline and autoconverge:
flags |= VIR_MIGRATE_AUTO_CONVERGE
if not offline and compress and conn.get_status() == 1:
flags |= VIR_MIGRATE_COMPRESSED
if not offline and postcopy and conn.get_status() == 1:
flags |= VIR_MIGRATE_POSTCOPY
if undefine:
flags |= VIR_MIGRATE_UNDEFINE_SOURCE
dom = conn.get_instance(name)
dom_arch = conn.get_arch()
dom_emulator = conn.get_dom_emulator()
if dom_emulator != self.get_emulator(dom_arch):
raise libvirtError(
"Destination host emulator is different. Cannot be migrated"
)
dom.migrate(self.wvm, flags, None, None, 0)
def graphics_type(self, name):
inst = self.get_instance(name)
console_type = util.get_xml_path(
inst.XMLDesc(0), "/domain/devices/graphics/@type"
)
return "None" if console_type is None else console_type
def graphics_listen(self, name):
inst = self.get_instance(name)
listener_addr = util.get_xml_path(
inst.XMLDesc(0), "/domain/devices/graphics/@listen"
)
if listener_addr is None:
listener_addr = util.get_xml_path(
inst.XMLDesc(0), "/domain/devices/graphics/listen/@address"
)
return "None" if listener_addr is None else listener_addr
def graphics_port(self, name):
inst = self.get_instance(name)
console_port = util.get_xml_path(
inst.XMLDesc(0), "/domain/devices/graphics/@port"
)
return "None" if console_port is None else console_port
def domain_name(self, name):
inst = self.get_instance(name)
domname = util.get_xml_path(inst.XMLDesc(0), "/domain/name")
return "NoName" if domname is None else domname
def graphics_passwd(self, name):
inst = self.get_instance(name)
password = util.get_xml_path(
inst.XMLDesc(VIR_DOMAIN_XML_SECURE), "/domain/devices/graphics/@passwd"
)
return "None" if password is None else password
class wvmInstance(wvmConnect):
def __init__(self, host, login, passwd, conn, vname):
wvmConnect.__init__(self, host, login, passwd, conn)
self._ip_cache = None
self.instance = self.get_instance(vname)
def osinfo(self):
info_results = qemuAgentCommand(
self.instance,
'{"execute":"guest-get-osinfo"}',
VIR_DOMAIN_QEMU_AGENT_COMMAND_DEFAULT,
0,
)
timezone_results = qemuAgentCommand(
self.instance,
'{"execute":"guest-get-timezone"}',
VIR_DOMAIN_QEMU_AGENT_COMMAND_DEFAULT,
0,
)
hostname_results = qemuAgentCommand(
self.instance,
'{"execute":"guest-get-host-name"}',
VIR_DOMAIN_QEMU_AGENT_COMMAND_DEFAULT,
0,
)
info_results = json.loads(info_results).get("return")
timezone_results = json.loads(timezone_results).get("return")
hostname_results = json.loads(hostname_results).get("return")
info_results.update(timezone_results)
info_results.update(hostname_results)
return info_results
def start(self):
self.instance.create()
def shutdown(self):
self.instance.shutdown()
def force_shutdown(self):
self.instance.destroy()
def managedsave(self):
self.instance.managedSave(0)
def managed_save_remove(self):
self.instance.managedSaveRemove(0)
def suspend(self):
self.instance.suspend()
def resume(self):
self.instance.resume()
def delete(self, flags=0):
self.instance.undefineFlags(flags)
def _XMLDesc(self, flag):
return self.instance.XMLDesc(flag)
def _defineXML(self, xml):
return self.wvm.defineXML(xml)
def get_status(self):
"""
VIR_DOMAIN_NOSTATE = 0
VIR_DOMAIN_RUNNING = 1
VIR_DOMAIN_PAUSED = 3
VIR_DOMAIN_SHUTOFF = 5
"""
return self.instance.info()[0]
def get_autostart(self):
return self.instance.autostart()
def set_autostart(self, flag):
return self.instance.setAutostart(flag)
def get_uuid(self):
return self.instance.UUIDString()
def get_vcpu(self):
vcpu = util.get_xml_path(self._XMLDesc(0), "/domain/vcpu")
return int(vcpu)
def get_cur_vcpu(self):
cur_vcpu = util.get_xml_path(self._XMLDesc(0), "/domain/vcpu/@current")
return int(cur_vcpu) if cur_vcpu else self.get_vcpu()
def get_vcpu_mode(self):
return util.get_xml_path(self._XMLDesc(0), "/domain/cpu/@current")
def get_arch(self):
return util.get_xml_path(self._XMLDesc(0), "/domain/os/type/@arch")
def get_machine_type(self):
return util.get_xml_path(self._XMLDesc(0), "/domain/os/type/@machine")
def get_dom_emulator(self):
return util.get_xml_path(self._XMLDesc(0), "/domain/devices/emulator")
def get_nvram(self):
return util.get_xml_path(self._XMLDesc(0), "/domain/os/nvram")
def get_loader(self):
xml = self._XMLDesc(0)
loader = util.get_xml_path(xml, "/domain/os/loader")
loader_type = util.get_xml_path(xml, "/domain/os/loader/@type")
readonly = util.get_xml_path(xml, "/domain/os/loader/@readonly")
return {"loader": loader, "type": loader_type, "readonly": readonly}
def get_vcpus(self):
vcpus = OrderedDict()
tree = etree.fromstring(self._XMLDesc(0))
for vcpu in tree.xpath("/domain/vcpus/vcpu"):
vcpu_id = vcpu.get("id")
enabled = vcpu.get("enabled")
hotplug = vcpu.get("hotpluggable")
order = vcpu.get("order")
vcpus[vcpu_id] = {
"enabled": enabled,
"hotpluggable": hotplug,
"order": order,
}
return vcpus
def get_memory(self):
mem = util.get_xml_path(self._XMLDesc(0), "/domain/memory")
return int(mem) // 1024
def get_cur_memory(self):
mem = util.get_xml_path(self._XMLDesc(0), "/domain/currentMemory")
return int(mem) // 1024
def get_title(self):
title = util.get_xml_path(self._XMLDesc(0), "/domain/title")
return title or ""
def get_filterrefs(self):
def filterrefs(ctx):
result = []
for net in ctx.xpath("/domain/devices/interface"):
filterref = net.xpath("filterref/@filter")
if filterref:
result.append(filterref[0])
return result
return util.get_xml_path(self._XMLDesc(0), func=filterrefs)
def get_description(self):
description = util.get_xml_path(self._XMLDesc(0), "/domain/description")
return description or ""
def get_max_memory(self):
return self.wvm.getInfo()[1] * 1048576
def get_max_cpus(self):
"""Get number of physical CPUs."""
hostinfo = self.wvm.getInfo()
pcpus = hostinfo[4] * hostinfo[5] * hostinfo[6] * hostinfo[7]
return range(1, int(pcpus + 1))
def get_interface_addresses(self, iface_mac):
if self._ip_cache is None:
self.refresh_interface_addresses()
qemuga = self._ip_cache["qemuga"]
arp = self._ip_cache["arp"]
leases = []
def extract_dom(info):
ipv4 = []
ipv6 = []
for addrs in info.values():
if addrs["hwaddr"] != iface_mac:
continue
if not addrs["addrs"]:
continue
for addr in addrs["addrs"]:
if addr["type"] == 0:
ipv4.append(addr["addr"])
elif addr["type"] == 1 and not str(addr["addr"]).startswith("fe80"):
ipv6.append(addr["addr"] + "/" + str(addr["prefix"]))
return ipv4, ipv6
def extract_lease(info):
ipv4 = []
ipv6 = []
if info["mac"] == iface_mac:
if info["type"] == 0:
ipv4.append(info["ipaddr"])
elif info["type"] == 1:
ipv6.append(info["ipaddr"])
return ipv4, ipv6
for ips in [qemuga] + leases + [arp]:
ipv4, ipv6 = extract_lease(ips) if "expirytime" in ips else extract_dom(ips)
if ipv4 or ipv6:
return ipv4, ipv6
return None, None
def _get_interface_addresses(self, source):
# ("Calling interfaceAddresses source=%s", source)
with contextlib.suppress(libvirtError):
return self.instance.interfaceAddresses(source)
return {}
def refresh_interface_addresses(self):
self._ip_cache = {"qemuga": {}, "arp": {}}
if self.get_status() != 1:
return
if self.is_agent_ready():
self._ip_cache["qemuga"] = self._get_interface_addresses(
VIR_DOMAIN_INTERFACE_ADDRESSES_SRC_AGENT
)
arp_flag = 3 # libvirt."VIR_DOMAIN_INTERFACE_ADDRESSES_SRC_ARP"
self._ip_cache["arp"] = self._get_interface_addresses(arp_flag)
def get_net_devices(self):
def networks(ctx):
result = []
inbound = outbound = []
for net in ctx.xpath("/domain/devices/interface"):
interface_type = net.xpath("@type")[0]
mac_inst = net.xpath("mac/@address")[0]
nic_inst = net.xpath("source/@network|source/@bridge|source/@dev")[0]
target_inst = net.xpath("target/@dev")[0] if net.xpath("target/@dev") else ""
link_state = net.xpath("link/@state")[0] if net.xpath("link") else "up"
filterref_inst = net.xpath("filterref/@filter")[0] if net.xpath("filterref/@filter") else ""
model_type = net.xpath("model/@type")[0]
if net.xpath("bandwidth/inbound"):
in_attr = net.xpath("bandwidth/inbound")[0]
in_av = in_attr.get("average")
in_peak = in_attr.get("peak")
in_burst = in_attr.get("burst")
inbound = {"average": in_av, "peak": in_peak, "burst": in_burst}
if net.xpath("bandwidth/outbound"):
out_attr = net.xpath("bandwidth/outbound")[0]
out_av = out_attr.get("average")
out_peak = out_attr.get("peak")
out_burst = out_attr.get("burst")
outbound = {"average": out_av, "peak": out_peak, "burst": out_burst}
try:
ipv4, ipv6 = self.get_interface_addresses(mac_inst)
except libvirtError:
ipv4, ipv6 = None, None
result.append(
{
"type": interface_type,
"mac": mac_inst,
"nic": nic_inst,
"target": target_inst,
"state": link_state,
"model": model_type,
"ipv4": ipv4,
"ipv6": ipv6,
"filterref": filterref_inst,
"inbound": inbound,
"outbound": outbound,
}
)
return result
return util.get_xml_path(self._XMLDesc(0), func=networks)
def get_disk_devices(self):
def disks(doc):
result = []
for disk in doc.xpath("/domain/devices/disk"):
dev = volume = storage = src_file = bus = None
disk_format = used_size = disk_size = None
disk_cache = disk_io = disk_discard = disk_zeroes = "default"
readonly = shareable = serial = None
device = disk.xpath("@device")[0]
if device == "disk":
try:
dev = disk.xpath("target/@dev")[0]
bus = disk.xpath("target/@bus")[0]
try:
src_file = disk.xpath(
"source/@file|source/@dev|source/@name"
)[0]
except Exception:
v = disk.xpath("source/@volume")[0]
s_name = disk.xpath("source/@pool")[0]
s = self.wvm.storagePoolLookupByName(s_name)
src_file = s.storageVolLookupByName(v).path()
with contextlib.suppress(Exception):
disk_format = disk.xpath("driver/@type")[0]
with contextlib.suppress(Exception):
disk_cache = disk.xpath("driver/@cache")[0]
with contextlib.suppress(Exception):
disk_io = disk.xpath("driver/@io")[0]
with contextlib.suppress(Exception):
disk_discard = disk.xpath("driver/@discard")[0]
with contextlib.suppress(Exception):
disk_zeroes = disk.xpath("driver/@detect_zeroes")[0]
readonly = bool(disk.xpath("readonly"))
shareable = bool(disk.xpath("shareable"))
serial = (
disk.xpath("serial")[0].text
if disk.xpath("serial")
else None
)
try:
vol = self.get_volume_by_path(src_file)
volume = vol.name()
disk_size = vol.info()[1]
used_size = vol.info()[2]
stg = vol.storagePoolLookupByVolume()
storage = stg.name()
except libvirtError:
volume = src_file
except Exception as e:
print(f"Exception: {e}")
finally:
result.append(
{
"dev": dev,
"bus": bus,
"image": volume,
"storage": storage,
"path": src_file,
"format": disk_format,
"size": disk_size,
"used": used_size,
"cache": disk_cache,
"io": disk_io,
"discard": disk_discard,
"detect_zeroes": disk_zeroes,
"readonly": readonly,
"shareable": shareable,
"serial": serial,
}
)
return result
return util.get_xml_path(self._XMLDesc(0), func=disks)
def get_media_devices(self):
def disks(doc):
result = []
dev = volume = storage = bus = None
src_file = None
for media in doc.xpath("/domain/devices/disk"):
device = media.xpath("@device")[0]
if device == "cdrom":
try:
dev = media.xpath("target/@dev")[0]
bus = media.xpath("target/@bus")[0]
src_file = None
volume = src_file
with contextlib.suppress(Exception):
src_file = media.xpath("source/@file")[0]
vol = self.get_volume_by_path(src_file)
volume = vol.name()
stg = vol.storagePoolLookupByVolume()
storage = stg.name()
except Exception:
pass
finally:
result.append(
{
"dev": dev,
"image": volume,
"storage": storage,
"path": src_file,
"bus": bus,
}
)
return result
return util.get_xml_path(self._XMLDesc(0), func=disks)
def get_bootmenu(self):
menu = util.get_xml_path(self._XMLDesc(0), "/domain/os/bootmenu/@enable")
return menu == "yes"
def set_bootmenu(self, flag):
tree = ElementTree.fromstring(self._XMLDesc(0))
os = tree.find("os")
menu = os.find("bootmenu")
if menu is None:
bootmenu = ElementTree.fromstring("")
os.append(bootmenu)
menu = os.find("bootmenu")
if flag == 0: # Disable
menu.attrib["enable"] = "no"
elif flag == 1: # Enable
menu.attrib["enable"] = "yes"
elif flag == -1: # Remove
os.remove(menu)
else:
raise Exception(
"Unknown boot menu option, please choose one of 0:disable, 1:enable, -1:remove"
)
xmldom = ElementTree.tostring(tree).decode()
self._defineXML(xmldom)
def get_bootorder(self):
boot_order = {}
dev_type = target = None
tree = ElementTree.fromstring(self._XMLDesc(0))
os = tree.find("os")
boot = os.findall("boot")
for idx, b in enumerate(boot):
dev = b.get("dev")
if dev == "cdrom":
target = "cdrom"
dev_type = "file"
elif dev == "fd":
target = "floppy"
dev_type = "file"
elif dev == "hd":
target = "disk"
dev_type = "file"
elif dev == "network":
target = "network"
dev_type = "network"
boot_order[idx] = {"type": dev_type, "dev": dev, "target": target}
devices = tree.find("devices")
for dev in devices:
dev_target = None
boot_dev = dev.find("boot")
if boot_dev is not None:
idx = boot_dev.get("order")
dev_type = dev.get("type")
dev_device = dev.get("device")
if dev_type == "file":
dev_target = dev.find("target").get("dev")
elif dev_type == "network":
dev_mac = dev.find("mac").get("address")
dev_device = "network"
dev_target = f"nic-{dev_mac[9:]}"
# pass dev_type usb
boot_order[int(idx) - 1] = {
"type": dev_type,
"dev": dev_device,
"target": dev_target,
}
return boot_order
def set_bootorder(self, devorder):
if not devorder:
return
def remove_bootorder():
tree = ElementTree.fromstring(self._XMLDesc(0))
os = tree.find("os")
boot = os.findall("boot")
# Remove old style boot order
for b in boot:
os.remove(b)
# Remove rest of them
for dev in tree.find("devices"):
boot_dev = dev.find("boot")
if boot_dev is not None:
dev.remove(boot_dev)
return tree
tree = remove_bootorder()
for idx, dev in devorder.items():
order = ElementTree.fromstring("".format(idx + 1))
if dev["type"] == "disk":
devices = tree.findall("./devices/disk[@device='disk']")
for d in devices:
device = d.find("./target[@dev='{}']".format(dev["dev"]))
if device is not None:
d.append(order)
elif dev["type"] == "cdrom":
devices = tree.findall("./devices/disk[@device='cdrom']")
for d in devices:
device = d.find("./target[@dev='{}']".format(dev["dev"]))
if device is not None:
d.append(order)
elif dev["type"] == "network":
devices = tree.findall("./devices/interface[@type='network']")
for d in devices:
device = d.find("mac[@address='{}']".format(dev["dev"]))
if device is not None:
d.append(order)
else:
raise Exception("Invalid Device Type for boot order")
self._defineXML(ElementTree.tostring(tree).decode())
def mount_iso(self, dev, image):
def attach_iso(dev, disk, vol):
if disk.get("device") == "cdrom":
for elm in disk:
if elm.tag == "target" and elm.get("dev") == dev:
src_media = ElementTree.Element("source")
src_media.set("file", vol.path())
disk.insert(2, src_media)
return True
vol = None
storages = self.get_storages(only_actives=True)
for storage in storages:
stg = self.get_storage(storage)
if stg.info()[0] != 0:
for img in stg.listVolumes():
if image == img:
vol = stg.storageVolLookupByName(image)
tree = ElementTree.fromstring(self._XMLDesc(0))
for disk in tree.findall("devices/disk"):
if attach_iso(dev, disk, vol):
break
if self.get_status() == 1:
xml = ElementTree.tostring(disk).decode()
self.instance.attachDevice(xml)
xmldom = self._XMLDesc(VIR_DOMAIN_XML_SECURE)
if self.get_status() == 5:
xmldom = ElementTree.tostring(tree).decode()
self._defineXML(xmldom)
def umount_iso(self, dev, image):
tree = ElementTree.fromstring(self._XMLDesc(0))
for disk in tree.findall("devices/disk"):
if disk.get("device") == "cdrom":
for elm in disk:
if elm.tag == "source" and elm.get("file") == image:
src_media = elm
if elm.tag == "target" and elm.get("dev") == dev:
disk.remove(src_media)
if self.get_status() == 1:
xml_disk = ElementTree.tostring(disk).decode()
self.instance.attachDevice(xml_disk)
xmldom = self._XMLDesc(VIR_DOMAIN_XML_SECURE)
if self.get_status() == 5:
xmldom = ElementTree.tostring(tree).decode()
self._defineXML(xmldom)
def attach_disk(
self,
target_dev,
source,
source_info=None,
pool_type="dir",
target_bus="ide",
disk_type="file",
disk_device="disk",
driver_name="qemu",
format_type="raw",
readonly=False,
shareable=False,
serial=None,
cache_mode=None,
io_mode=None,
discard_mode=None,
detect_zeroes_mode=None,
):
additionals = ""
if (
cache_mode is not None
and cache_mode != "default"
and disk_device != "cdrom"
):
additionals += f"cache='{cache_mode}' "
if io_mode is not None and io_mode != "default":
additionals += f"io='{io_mode}' "
if discard_mode is not None and discard_mode != "default":
additionals += f"discard='{discard_mode}' "
if detect_zeroes_mode is not None and detect_zeroes_mode != "default":
additionals += f"detect_zeroes='{detect_zeroes_mode}' "
xml_disk = f""
if disk_device == "cdrom":
xml_disk += f""
elif disk_device == "disk":
xml_disk += (
f""
)
if disk_type == "file":
xml_disk += f""
elif disk_type == "network":
if pool_type == "rbd":
auth_type = source_info.get("auth_type")
auth_user = source_info.get("auth_user")
auth_uuid = source_info.get("auth_uuid")
xml_disk += f"""
"""
xml_disk += f""""""
else:
raise Exception("Not implemented disk type")
else:
raise Exception("Not implemented disk type")
xml_disk += f""
if readonly or disk_device == "cdrom":
xml_disk += """"""
if shareable:
xml_disk += """"""
if serial is not None and serial != "None" and serial != "":
xml_disk += f"""{serial}"""
xml_disk += """"""
if self.get_status() == 1:
self.instance.attachDeviceFlags(xml_disk, VIR_DOMAIN_AFFECT_LIVE)
self.instance.attachDeviceFlags(xml_disk, VIR_DOMAIN_AFFECT_CONFIG)
if self.get_status() == 5:
self.instance.attachDeviceFlags(xml_disk, VIR_DOMAIN_AFFECT_CONFIG)
def detach_disk(self, target_dev):
tree = etree.fromstring(self._XMLDesc(0))
disk_el = tree.xpath("./devices/disk/target[@dev='{}']".format(target_dev))[
0
].getparent()
xml_disk = etree.tostring(disk_el).decode()
devices = tree.find("devices")
devices.remove(disk_el)
if self.get_status() == 1:
self.instance.detachDeviceFlags(xml_disk, VIR_DOMAIN_AFFECT_LIVE)
self.instance.detachDeviceFlags(xml_disk, VIR_DOMAIN_AFFECT_CONFIG)
if self.get_status() == 5:
self.instance.detachDeviceFlags(xml_disk, VIR_DOMAIN_AFFECT_CONFIG)
def edit_disk(
self,
target_dev,
source,
readonly,
shareable,
target_bus,
serial,
format,
cache_mode,
io_mode,
discard_mode,
detect_zeroes_mode,
):
tree = etree.fromstring(self._XMLDesc(0))
disk_el = tree.xpath("./devices/disk/target[@dev='{}']".format(target_dev))[
0
].getparent()
old_disk_type = disk_el.get("type")
old_disk_device = disk_el.get("device")
old_driver_name = disk_el.xpath("driver/@name")[0]
old_target_bus = disk_el.xpath("target/@bus")[0]
additionals = ""
if cache_mode is not None and cache_mode != "default":
additionals += f"cache='{cache_mode}' "
if io_mode is not None and io_mode != "default":
additionals += f"io='{io_mode}' "
if discard_mode is not None and discard_mode != "default":
additionals += f"discard='{discard_mode}' "
if detect_zeroes_mode is not None and detect_zeroes_mode != "default":
additionals += f"detect_zeroes='{detect_zeroes_mode}' "
xml_disk = f""
if old_disk_device == "cdrom":
xml_disk += f""
elif old_disk_device == "disk":
xml_disk += (
f""
)
xml_disk += f"""
"""
if readonly:
xml_disk += """"""
if shareable:
xml_disk += """"""
if serial is not None and serial != "None" and serial != "":
xml_disk += f"""{serial}"""
xml_disk += """"""
self.instance.updateDeviceFlags(xml_disk, VIR_DOMAIN_AFFECT_CONFIG)
def cpu_usage(self):
cpu_usage = {}
if self.get_status() == 1:
nbcore = self.wvm.getInfo()[2]
cpu_use_ago = self.instance.info()[4]
time.sleep(1)
cpu_use_now = self.instance.info()[4]
diff_usage = cpu_use_now - cpu_use_ago
cpu_usage["cpu"] = 100 * diff_usage / (1 * nbcore * 10**9)
else:
cpu_usage["cpu"] = 0
return cpu_usage
def set_vcpu(self, cpu_id, enabled):
self.instance.setVcpu(str(cpu_id), enabled)
def set_vcpu_hotplug(self, status, vcpus_hotplug=0):
"""vcpus_hotplug = 0 make all vpus hotpluggable"""
vcpus_hotplug = int(self.get_vcpu()) if vcpus_hotplug == 0 else vcpus_hotplug
if self.get_status() == 5: # shutoff
if status:
xml = """ """
xml += """"""
for i in range(1, vcpus_hotplug):
xml += f""""""
xml += """"""
tree = etree.fromstring(self._XMLDesc(0))
vcpus = tree.xpath("/domain/vcpus")
if not vcpus:
tree.append(etree.fromstring(xml))
self._defineXML(etree.tostring(tree).decode())
else:
tree = etree.fromstring(self._XMLDesc(0))
vcpus = tree.xpath("/domain/vcpus")
for vcpu in vcpus:
parent = vcpu.getparent()
parent.remove(vcpu)
self._defineXML(etree.tostring(tree).decode())
else:
raise libvirtError(
"Please shutdown the instance then try to enable vCPU hotplug"
)
def mem_usage(self):
mem_usage = {}
if self.get_status() == 1:
mem_stats = self.instance.memoryStats()
rss = mem_stats["rss"] if "rss" in mem_stats else 0
total = mem_stats["actual"] if "actual" in mem_stats else 0
available = total - rss
if available < 0:
available = 0
mem_usage["used"] = rss
mem_usage["total"] = total
else:
mem_usage["used"] = 0
mem_usage["total"] = 0
return mem_usage
def disk_usage(self):
devices = []
dev_usage = []
tree = ElementTree.fromstring(self._XMLDesc(0))
for disk in tree.findall("devices/disk"):
if disk.get("device") == "disk":
dev_file = None
dev_bus = None
network_disk = True
for elm in disk:
if elm.tag == "source":
if elm.get("protocol"):
dev_file = elm.get("protocol")
network_disk = True
if elm.get("file"):
dev_file = elm.get("file")
if elm.get("dev"):
dev_file = elm.get("dev")
if elm.tag == "target":
dev_bus = elm.get("dev")
if (dev_file and dev_bus) is not None:
if network_disk:
dev_file = dev_bus
devices.append([dev_file, dev_bus])
for dev in devices:
if self.get_status() == 1:
rd_use_ago = self.instance.blockStats(dev[0])[1]
wr_use_ago = self.instance.blockStats(dev[0])[3]
time.sleep(1)
rd_use_now = self.instance.blockStats(dev[0])[1]
wr_use_now = self.instance.blockStats(dev[0])[3]
rd_diff_usage = rd_use_now - rd_use_ago
wr_diff_usage = wr_use_now - wr_use_ago
else:
rd_diff_usage = 0
wr_diff_usage = 0
dev_usage.append({"dev": dev[1], "rd": rd_diff_usage, "wr": wr_diff_usage})
return dev_usage
def net_usage(self):
devices = []
dev_usage = []
if self.get_status() == 1:
tree = ElementTree.fromstring(self._XMLDesc(0))
for target in tree.findall("devices/interface/target"):
devices.append(target.get("dev"))
for i, dev in enumerate(devices):
rx_use_ago = self.instance.interfaceStats(dev)[0]
tx_use_ago = self.instance.interfaceStats(dev)[4]
time.sleep(1)
rx_use_now = self.instance.interfaceStats(dev)[0]
tx_use_now = self.instance.interfaceStats(dev)[4]
rx_diff_usage = (rx_use_now - rx_use_ago) * 8
tx_diff_usage = (tx_use_now - tx_use_ago) * 8
dev_usage.append({"dev": i, "rx": rx_diff_usage, "tx": tx_diff_usage})
else:
for i, dev in enumerate(self.get_net_devices()):
dev_usage.append({"dev": i, "rx": 0, "tx": 0})
return dev_usage
def get_telnet_port(self):
telnet_port = None
service_port = None
tree = ElementTree.fromstring(self._XMLDesc(0))
for console in tree.findall("devices/console"):
if console.get("type") == "tcp":
for elm in console:
if elm.tag == "source":
if elm.get("service"):
service_port = elm.get("service")
if elm.tag == "protocol":
if elm.get("type") == "telnet":
if service_port is not None:
telnet_port = service_port
return telnet_port
def get_console_listener_addr(self):
listener_addr = util.get_xml_path(
self._XMLDesc(0), "/domain/devices/graphics/@listen"
)
if listener_addr is None:
listener_addr = util.get_xml_path(
self._XMLDesc(0), "/domain/devices/graphics/listen/@address"
)
if listener_addr is None:
return "127.0.0.1"
return listener_addr
def set_console_listener_addr(self, listener_addr):
xml = self._XMLDesc(VIR_DOMAIN_XML_SECURE)
root = ElementTree.fromstring(xml)
console_type = self.get_console_type()
try:
graphic = root.find("devices/graphics[@type='%s']" % console_type)
except SyntaxError:
# Little fix for old version ElementTree
graphic = root.find("devices/graphics")
if graphic is None:
return False
listen = graphic.find("listen[@type='address']")
if listen is None:
return False
if listener_addr:
graphic.set("listen", listener_addr)
listen.set("address", listener_addr)
else:
with contextlib.suppress(Exception):
graphic.attrib.pop("listen")
listen.attrib.pop("address")
newxml = ElementTree.tostring(root).decode()
return self._defineXML(newxml)
def get_console_socket(self):
socket = util.get_xml_path(self._XMLDesc(0), "/domain/devices/graphics/@socket")
return socket
def get_console_type(self):
console_type = util.get_xml_path(
self._XMLDesc(0), "/domain/devices/graphics/@type"
)
if console_type is None:
console_type = util.get_xml_path(
self._XMLDesc(0), "/domain/devices/console/@type"
)
return console_type
def set_console_type(self, console_type):
current_type = self.get_console_type()
if current_type == console_type:
return True
if console_type == "":
return False
xml = self._XMLDesc(VIR_DOMAIN_XML_SECURE)
root = ElementTree.fromstring(xml)
try:
graphic = root.find(f"devices/graphics[@type='{current_type}']")
except SyntaxError:
# Little fix for old version ElementTree
graphic = root.find("devices/graphics")
graphic.set("type", console_type)
newxml = ElementTree.tostring(root).decode()
self._defineXML(newxml)
def get_console_port(self, console_type=None):
if console_type is None:
console_type = self.get_console_type()
port = util.get_xml_path(
self._XMLDesc(0),
"/domain/devices/graphics[@type='%s']/@port" % console_type,
)
return port
def get_console_websocket_port(self):
console_type = self.get_console_type()
websocket_port = util.get_xml_path(
self._XMLDesc(0),
"/domain/devices/graphics[@type='%s']/@websocket" % console_type,
)
return websocket_port
def get_console_passwd(self):
return util.get_xml_path(
self._XMLDesc(VIR_DOMAIN_XML_SECURE), "/domain/devices/graphics/@passwd"
)
def set_console_passwd(self, passwd):
xml = self._XMLDesc(VIR_DOMAIN_XML_SECURE)
root = ElementTree.fromstring(xml)
console_type = self.get_console_type()
try:
graphic = root.find(f"devices/graphics[@type='{console_type}']")
except SyntaxError:
# Little fix for old version ElementTree
graphic = root.find("devices/graphics")
if graphic is None:
return False
if passwd:
graphic.set("passwd", passwd)
else:
with contextlib.suppress(Exception):
graphic.attrib.pop("passwd")
newxml = ElementTree.tostring(root).decode()
return self._defineXML(newxml)
def set_console_keymap(self, keymap):
xml = self._XMLDesc(VIR_DOMAIN_XML_SECURE)
root = ElementTree.fromstring(xml)
console_type = self.get_console_type()
try:
graphic = root.find("devices/graphics[@type='%s']" % console_type)
except SyntaxError:
# Little fix for old version ElementTree
graphic = root.find("devices/graphics")
if keymap != "auto":
graphic.set("keymap", keymap)
else:
with contextlib.suppress(Exception):
graphic.attrib.pop("keymap")
newxml = ElementTree.tostring(root).decode()
self._defineXML(newxml)
def get_console_keymap(self):
return (
util.get_xml_path(
self._XMLDesc(VIR_DOMAIN_XML_SECURE), "/domain/devices/graphics/@keymap"
)
or ""
)
def get_video_model(self):
""":return only primary video card"""
xml = self._XMLDesc(VIR_DOMAIN_XML_SECURE)
tree = etree.fromstring(xml)
video_models = tree.xpath("/domain/devices/video/model")
for model in video_models:
if model.get("primary") == "yes" or len(video_models) == 1:
return model.get("type")
def set_video_model(self, model):
"""Changes only primary video card"""
xml = self._XMLDesc(VIR_DOMAIN_XML_SECURE)
tree = etree.fromstring(xml)
video_models = tree.xpath("/domain/devices/video/model")
video_xml = "".format(model)
for model in video_models:
if model.get("primary") == "yes" or len(video_models) == 1:
parent = model.getparent()
parent.remove(model)
parent.append(etree.fromstring(video_xml))
self._defineXML(etree.tostring(tree).decode())
def resize_cpu(self, cur_vcpu, vcpu):
"""
Function change ram and cpu on instance.
"""
is_vcpus_enabled = self.get_vcpus()
if is_vcpus_enabled:
self.set_vcpu_hotplug(False)
xml = self._XMLDesc(VIR_DOMAIN_XML_SECURE)
tree = etree.fromstring(xml)
vcpu_elem = tree.find("vcpu")
vcpu_elem.text = vcpu
vcpu_elem.set("current", cur_vcpu)
new_xml = etree.tostring(tree).decode()
self._defineXML(new_xml)
if is_vcpus_enabled:
self.set_vcpu_hotplug(True, int(cur_vcpu))
def resize_mem(self, cur_memory, memory):
"""
Function change ram and cpu on vds.
"""
memory = int(memory) * 1024
cur_memory = int(cur_memory) * 1024
# if dom is running change only ram
if self.get_status() == VIR_DOMAIN_RUNNING:
self.set_memory(cur_memory, VIR_DOMAIN_AFFECT_LIVE)
self.set_memory(cur_memory, VIR_DOMAIN_AFFECT_CONFIG)
return
xml = self._XMLDesc(VIR_DOMAIN_XML_SECURE)
tree = etree.fromstring(xml)
mem_elem = tree.find("memory")
mem_elem.text = str(memory)
cur_mem_elem = tree.find("currentMemory")
cur_mem_elem.text = str(cur_memory)
new_xml = etree.tostring(tree).decode()
self._defineXML(new_xml)
def resize_disk(self, disks):
"""
Function change disks on vds.
"""
xml = self._XMLDesc(VIR_DOMAIN_XML_SECURE)
tree = etree.fromstring(xml)
for disk in disks:
source_dev = disk["path"]
vol = self.get_volume_by_path(source_dev)
vol.resize(disk["size_new"])
new_xml = etree.tostring(tree).decode()
self._defineXML(new_xml)
def get_iso_media(self):
iso = []
storages = self.get_storages(only_actives=True)
for storage in storages:
stg = self.get_storage(storage)
if stg.info()[0] != 0:
with contextlib.suppress(Exception):
stg.refresh(0)
for img in stg.listVolumes():
if img.lower().endswith(".iso"):
iso.append(img)
return iso
def delete_all_disks(self):
disks = self.get_disk_devices()
for disk in disks:
vol = self.get_volume_by_path(disk.get("path"))
vol.delete(0)
def _snapshotCreateXML(self, xml, flag):
self.instance.snapshotCreateXML(xml, flag)
def create_snapshot(self, name, desc=None):
state = "shutoff" if self.get_status() == 5 else "running"
xml = """
%s
%s
%s
%d""" % (
name,
desc,
state,
time.time(),
)
self.change_snapshot_xml()
xml += self._XMLDesc(VIR_DOMAIN_XML_SECURE)
xml += """0
"""
self._snapshotCreateXML(xml, 0)
self.recover_snapshot_xml()
def change_snapshot_xml(self):
xml_temp = self._XMLDesc(VIR_DOMAIN_XML_SECURE).replace(
"",
"",
)
self._defineXML(xml_temp)
def recover_snapshot_xml(self):
xml_temp = self._XMLDesc(VIR_DOMAIN_XML_SECURE).replace(
"",
"",
)
self._defineXML(xml_temp)
def get_snapshot(self):
snapshots = []
snapshot_list = self.instance.snapshotListNames(0)
for snapshot in snapshot_list:
snap = self.instance.snapshotLookupByName(snapshot, 0)
snap_description = util.get_xml_path(
snap.getXMLDesc(0), "/domainsnapshot/description"
)
snap_time_create = util.get_xml_path(
snap.getXMLDesc(0), "/domainsnapshot/creationTime"
)
snapshots.append(
{
"date": datetime.fromtimestamp(int(snap_time_create)),
"name": snapshot,
"description": snap_description,
}
)
return snapshots
def snapshot_delete(self, snapshot):
snap = self.instance.snapshotLookupByName(snapshot, 0)
snap.delete(0)
def snapshot_revert(self, snapshot):
self.change_snapshot_xml()
snap = self.instance.snapshotLookupByName(snapshot, 0)
self.instance.revertToSnapshot(snap, 0)
self.recover_snapshot_xml()
def get_managed_save_image(self):
return self.instance.hasManagedSaveImage(0)
def get_wvmStorage(self, pool):
return wvmStorage(self.host, self.login, self.passwd, self.conn, pool)
def get_wvmStorages(self):
return wvmStorages(self.host, self.login, self.passwd, self.conn)
def fix_mac(self, mac):
if ":" in mac:
return mac
# if mac does not contain ":", try to split into tuples and join with ":"
n = 2
mac_tuples = [mac[i : i + n] for i in range(0, len(mac), n)]
return ":".join(mac_tuples)
def clone_instance(self, clone_data):
clone_dev_path = []
xml = self._XMLDesc(VIR_DOMAIN_XML_SECURE)
tree = etree.fromstring(xml)
name = tree.find("name")
name.text = clone_data["name"]
uuid = tree.find("uuid")
tree.remove(uuid)
options = {
"title": clone_data.get("clone-title", ""),
"description": clone_data.get("clone-description", ""),
}
self._set_options(tree, options)
src_nvram_path = self.get_nvram()
if src_nvram_path:
# Change XML for nvram
nvram = tree.find("os/nvram")
nvram.getparent().remove(nvram)
# NVRAM CLONE: create pool if nvram is not in a pool. then clone it
src_nvram_name = os.path.basename(src_nvram_path)
nvram_dir = os.path.dirname(src_nvram_path)
nvram_pool_name = os.path.basename(nvram_dir)
try:
self.get_volume_by_path(src_nvram_path)
except libvirtError:
stg_conn = self.get_wvmStorages()
stg_conn.create_storage("dir", nvram_pool_name, None, nvram_dir)
new_nvram_name = f"{clone_data['name']}_VARS"
nvram_stg = self.get_wvmStorage(nvram_pool_name)
nvram_stg.clone_volume(src_nvram_name, new_nvram_name, file_suffix="fd")
for num, net in enumerate(tree.findall("devices/interface")):
elm = net.find("mac")
mac_address = self.fix_mac(clone_data["clone-net-mac-" + str(num)])
elm.set("address", mac_address)
for disk in tree.findall("devices/disk"):
if disk.get("device") == "disk":
elm = disk.find("target")
device_name = elm.get("dev")
if device_name:
target_file = clone_data["disk-" + device_name]
meta_prealloc = False
with contextlib.suppress(Exception):
meta_prealloc = clone_data["meta-" + device_name]
elm.set("dev", device_name)
elm = disk.find("source")
source_file = elm.get("file")
if source_file:
clone_dev_path.append(source_file)
clone_path = os.path.join(os.path.dirname(source_file), target_file)
elm.set("file", clone_path)
vol = self.get_volume_by_path(source_file)
vol_format = util.get_xml_path(
vol.XMLDesc(0), "/volume/target/format/@type"
)
if vol_format == "qcow2" and meta_prealloc:
meta_prealloc = True
vol_clone_xml = f"""
{target_file}
0
0
{clone_data['disk_owner_uid']}
{clone_data['disk_owner_gid']}
0644
1.1
"""
stg = vol.storagePoolLookupByVolume()
stg.createXMLFrom(vol_clone_xml, vol, meta_prealloc)
source_protocol = elm.get("protocol")
if source_protocol == "rbd":
source_name = elm.get("name")
clone_name = "%s/%s" % (os.path.dirname(source_name), target_file)
elm.set("name", clone_name)
vol = self.get_volume_by_path(source_name)
vol_format = util.get_xml_path(
vol.XMLDesc(0), "/volume/target/format/@type"
)
vol_clone_xml = f"""
{target_file}
0
0
"""
stg = vol.storagePoolLookupByVolume()
stg.createXMLFrom(vol_clone_xml, vol, meta_prealloc)
source_dev = elm.get("dev")
if source_dev:
clone_path = os.path.join(os.path.dirname(source_dev), target_file)
elm.set("dev", clone_path)
vol = self.get_volume_by_path(source_dev)
stg = vol.storagePoolLookupByVolume()
vol_name = util.get_xml_path(vol.XMLDesc(0), "/volume/name")
pool_name = util.get_xml_path(stg.XMLDesc(0), "/pool/name")
storage = self.get_wvmStorage(pool_name)
storage.clone_volume(vol_name, target_file)
self._defineXML(ElementTree.tostring(tree).decode())
return self.get_instance(clone_data["name"]).UUIDString()
def get_bridge_name(self, source, source_type="net"):
if source_type == "iface":
iface = self.get_iface(source)
bridge_name = iface.name()
else:
net = self.get_network(source)
try:
bridge_name = net.bridgeName()
except libvirtError:
bridge_name = None
return bridge_name
def add_network(
self, mac_address, source, source_type="net", model="virtio", nwfilter=None
):
if source_type == "net":
interface_type = "network"
elif source_type == "bridge":
interface_type = "bridge"
else:
interface_type = "direct"
# network modes not handled: default is bridge
xml_iface = f"""
"""
if interface_type == "network":
xml_iface += f""""""
elif interface_type == "direct":
xml_iface += f""""""
elif interface_type == "bridge":
xml_iface += f""""""
else:
raise libvirtError(f"'{interface_type}' is an unexpected interface type.")
xml_iface += f""""""
if nwfilter:
xml_iface += f""""""
xml_iface += """"""
if self.get_status() == 1:
self.instance.attachDeviceFlags(xml_iface, VIR_DOMAIN_AFFECT_LIVE)
self.instance.attachDeviceFlags(xml_iface, VIR_DOMAIN_AFFECT_CONFIG)
if self.get_status() == 5:
self.instance.attachDeviceFlags(xml_iface, VIR_DOMAIN_AFFECT_CONFIG)
def delete_network(self, mac_address):
tree = ElementTree.fromstring(self._XMLDesc(0))
for interface in tree.findall("devices/interface"):
source = interface.find("mac")
if source.get("address", "") == mac_address:
new_xml = ElementTree.tostring(interface).decode()
if self.get_status() == 1:
self.instance.detachDeviceFlags(new_xml, VIR_DOMAIN_AFFECT_LIVE)
self.instance.detachDeviceFlags(new_xml, VIR_DOMAIN_AFFECT_CONFIG)
if self.get_status() == 5:
self.instance.detachDeviceFlags(new_xml, VIR_DOMAIN_AFFECT_CONFIG)
return new_xml
return None
def change_network(self, network_data):
net_mac = network_data.get("net-mac-0")
net_source = network_data.get("net-source-0")
net_source_type = network_data.get("net-source-0-type")
net_filter = network_data.get("net-nwfilter-0")
net_model = network_data.get("net-model-0")
# Remove interface first, but keep network interface XML definition
# If there is an error happened while adding changed one, then add removed one to back.
status = self.delete_network(net_mac)
try:
self.add_network(
net_mac, net_source, net_source_type, net_model, net_filter
)
except libvirtError:
if status is not None:
if self.get_status() == 1:
self.instance.attachDeviceFlags(status, VIR_DOMAIN_AFFECT_LIVE)
self.instance.attachDeviceFlags(status, VIR_DOMAIN_AFFECT_CONFIG)
if self.get_status() == 5:
self.instance.attachDeviceFlags(status, VIR_DOMAIN_AFFECT_CONFIG)
def change_network_oldway(self, network_data):
"""
change network firsh version...
will be removed if new one works as expected for all scenarios
"""
xml = self._XMLDesc(VIR_DOMAIN_XML_SECURE)
tree = ElementTree.fromstring(xml)
for num, interface in enumerate(tree.findall("devices/interface")):
net_mac = network_data.get("net-mac-" + str(num))
if net_mac is None:
continue
net_source = network_data.get("net-source-" + str(num))
net_source_type = network_data.get("net-source-" + str(num) + "-type")
net_filter = network_data.get("net-nwfilter-" + str(num))
net_model = network_data.get("net-model-" + str(num))
source = interface.find("source")
if interface.get("type") == "bridge":
bridge_name = self.get_bridge_name(net_source, net_source_type)
source.set("bridge", bridge_name)
elif interface.get("type") in ["network", "direct"]:
if net_source_type == "net":
source.set("network", net_source)
elif net_source_type == "iface":
source.set("dev", net_source)
else:
raise libvirtError(
"Unknown network type: {}".format(net_source_type)
)
else:
raise libvirtError(
"Unknown network type: {}".format(interface.get("type"))
)
source = interface.find("model")
if net_model != "default":
source.attrib["type"] = net_model
else:
interface.remove(source)
source = interface.find("mac")
source.set("address", net_mac)
source = interface.find("filterref")
if net_filter:
if source is not None:
source.set("filter", net_filter)
else:
element = ElementTree.Element("filterref")
element.attrib["filter"] = net_filter
interface.append(element)
else:
if source is not None:
interface.remove(source)
new_xml = ElementTree.tostring(tree).decode()
self._defineXML(new_xml)
def set_link_state(self, mac_address, state):
tree = etree.fromstring(self._XMLDesc(0))
for interface in tree.findall("devices/interface"):
source = interface.find("mac")
if source.get("address") == mac_address:
link = interface.find("link")
if link is not None:
interface.remove(link)
link_el = etree.Element("link")
link_el.attrib["state"] = state
interface.append(link_el)
new_xml = etree.tostring(interface).decode()
if self.get_status() == 1:
self.instance.updateDeviceFlags(new_xml, VIR_DOMAIN_AFFECT_LIVE)
self.instance.updateDeviceFlags(new_xml, VIR_DOMAIN_AFFECT_CONFIG)
if self.get_status() == 5:
self.instance.updateDeviceFlags(new_xml, VIR_DOMAIN_AFFECT_CONFIG)
def _set_options(self, tree, options):
for o in ["title", "description"]:
option = tree.find(o)
option_value = options.get(o, "").strip()
if not option_value:
if option is not None:
tree.remove(option)
else:
if option is None:
option = etree.SubElement(tree, o)
option.text = option_value
def set_options(self, options):
"""
Function change description, title
"""
xml = self._XMLDesc(VIR_DOMAIN_XML_SECURE)
tree = etree.fromstring(xml)
self._set_options(tree, options)
new_xml = etree.tostring(tree).decode()
self._defineXML(new_xml)
def set_memory(self, size, flags=0):
self.instance.setMemoryFlags(size, flags)
def get_all_qos(self):
qos_values = dict()
tree = etree.fromstring(self._XMLDesc(0))
qos = tree.xpath("/domain/devices/interface")
for q in qos:
bound_list = list()
mac = q.xpath("mac/@address")
band = q.find("bandwidth")
if band is not None:
in_qos = band.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")
in_floor = in_qos.get("floor")
bound_list.append(
{
"direction": "inbound",
"average": in_av,
"peak": in_peak,
"floor": in_floor,
"burst": in_burst,
}
)
out_qos = band.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")
bound_list.append(
{
"direction": "outbound",
"average": out_av,
"peak": out_peak,
"burst": out_burst,
}
)
qos_values[mac[0]] = bound_list
return qos_values
def set_qos(self, mac, 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))
macs = tree.xpath("/domain/devices/interface/mac")
for cur_mac in macs:
if cur_mac.get("address") == mac:
interface = cur_mac.getparent()
band = interface.find("bandwidth")
if band is None:
xml = "" + xml + ""
interface.append(etree.fromstring(xml))
else:
direct = band.find(direction)
if direct is not None:
parent = direct.getparent()
parent.remove(direct)
parent.append(etree.fromstring(xml))
else:
band.append(etree.fromstring(xml))
new_xml = etree.tostring(tree).decode()
self.wvm.defineXML(new_xml)
def unset_qos(self, mac, direction):
tree = etree.fromstring(self._XMLDesc(0))
for direct in tree.xpath(
"/domain/devices/interface/bandwidth/{}".format(direction)
):
band_el = direct.getparent()
interface_el = (
band_el.getparent()
) # parent bandwidth,its parent is interface
parent_mac = interface_el.xpath("mac/@address")
if parent_mac[0] == mac:
band_el.remove(direct)
self.wvm.defineXML(etree.tostring(tree).decode())
def add_guest_agent(self):
channel_xml = """
"""
if self.get_status() == 1:
self.instance.attachDeviceFlags(channel_xml, VIR_DOMAIN_AFFECT_LIVE)
self.instance.attachDeviceFlags(channel_xml, VIR_DOMAIN_AFFECT_CONFIG)
if self.get_status() == 5:
self.instance.attachDeviceFlags(channel_xml, VIR_DOMAIN_AFFECT_CONFIG)
def remove_guest_agent(self):
tree = etree.fromstring(self._XMLDesc(0))
for target in tree.xpath(
"/domain/devices/channel[@type='unix']/target[@name='org.qemu.guest_agent.0']"
):
parent = target.getparent()
channel_xml = etree.tostring(parent).decode()
if self.get_status() == 1:
self.instance.detachDeviceFlags(channel_xml, VIR_DOMAIN_AFFECT_LIVE)
self.instance.detachDeviceFlags(channel_xml, VIR_DOMAIN_AFFECT_CONFIG)
if self.get_status() == 5:
self.instance.detachDeviceFlags(channel_xml, VIR_DOMAIN_AFFECT_CONFIG)
def get_guest_agent(self):
def _get_agent(doc):
"""
Return agent channel object if it is defined.
"""
for channel in doc.xpath("/domain/devices/channel"):
ch_type = channel.get("type")
target = channel.find("target")
target_name = target.get("name")
if ch_type == "unix" and target_name == "org.qemu.guest_agent.0":
return channel
return None
return util.get_xml_path(self._XMLDesc(0), func=_get_agent)
def is_agent_ready(self):
"""
Return connected state of an agent.
"""
# we need to get a fresh agent channel object on each call so it
# reflects the current state
dev = self.get_guest_agent()
if dev is not None:
states = dev.xpath("target/@state")
state = states[0] if len(states) > 0 else ""
if state == "connected":
return True
return False