import time import os.path try: from libvirt import libvirtError, VIR_DOMAIN_XML_SECURE, VIR_MIGRATE_LIVE, VIR_MIGRATE_UNSAFE except: from libvirt import libvirtError, VIR_DOMAIN_XML_SECURE, VIR_MIGRATE_LIVE from vrtManager import util from xml.etree import ElementTree from datetime import datetime from vrtManager.connection import wvmConnect from vrtManager.storage import wvmStorage from webvirtcloud.settings import QEMU_CONSOLE_TYPES 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") if cur_vcpu: vcpu = cur_vcpu else: vcpu = util.get_xml_path(inst.XMLDesc(0), "/domain/vcpu") return 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): flags = 0 if live and conn.get_status() == 1: flags |= VIR_MIGRATE_LIVE if unsafe and conn.get_status() == 1: flags |= VIR_MIGRATE_UNSAFE dom = conn.get_instance(name) dom.migrate(self.wvm, flags, name, None, 0) if undefine: dom.undefine() def define_move(self, name): dom = self.get_instance(name) xml = dom.XMLDesc(VIR_DOMAIN_XML_SECURE) self.wvm.defineXML(xml) def graphics_type(self, name): inst = self.get_instance(name) console_type = util.get_xml_path(inst.XMLDesc(0), "/domain/devices/graphics/@type") if console_type is None: return "None" return console_type def graphics_listen(self, name): inst = self.get_instance(name) listen_addr = util.get_xml_path(inst.XMLDesc(0), "/domain/devices/graphics/@listen") if listen_addr is None: listen_addr = util.get_xml_path(inst.XMLDesc(0), "/domain/devices/graphics/listen/@address") if listen_addr is None: return "None" return listen_addr def graphics_port(self, name): inst = self.get_instance(name) console_port = util.get_xml_path(inst.XMLDesc(0), "/domain/devices/graphics/@port") if console_port is None: return "None" return console_port def domain_name(self, name): inst = self.get_instance(name) domname = util.get_xml_path(inst.XMLDesc(0), "/domain/name") if domname is None: return "NoName" return 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") if password is None: return "None" return password class wvmInstance(wvmConnect): def __init__(self, host, login, passwd, conn, vname): wvmConnect.__init__(self, host, login, passwd, conn) self.instance = self.get_instance(vname) 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): self.instance.undefine() def _XMLDesc(self, flag): return self.instance.XMLDesc(flag) def _defineXML(self, xml): return self.wvm.defineXML(xml) def get_status(self): 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") if cur_vcpu: return int(cur_vcpu) 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_description(self): return util.get_xml_path(self._XMLDesc(0), "/domain/description") 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] range_pcpus = xrange(1, int(pcpus + 1)) return range_pcpus def get_net_device(self): def get_mac_ipaddr(net, mac_host): def fixed(ctx): for net in ctx.xpathEval('/network/ip/dhcp/host'): mac = net.xpathEval('@mac')[0].content host = net.xpathEval('@ip')[0].content if mac == mac_host: return host return None return util.get_xml_path(net.XMLDesc(0), func=fixed) def networks(ctx): result = [] for net in ctx.xpathEval('/domain/devices/interface'): mac_host = net.xpathEval('mac/@address')[0].content nic_host = net.xpathEval('source/@network|source/@bridge|source/@dev|target/@dev')[0].content try: net = self.get_network(nic_host) ip = get_mac_ipaddr(net, mac_host) except: ip = None result.append({'mac': mac_host, 'nic': nic_host, 'ip': ip}) return result return util.get_xml_path(self._XMLDesc(0), func=networks) def get_disk_device(self): def disks(ctx): result = [] dev = None volume = None storage = None src_fl = None disk_format = None disk_size = None for disk in ctx.xpathEval('/domain/devices/disk'): device = disk.xpathEval('@device')[0].content if device == 'disk': try: dev = disk.xpathEval('target/@dev')[0].content src_fl = disk.xpathEval('source/@file|source/@dev|source/@name|source/@volume')[0].content disk_format = disk.xpathEval('driver/@type')[0].content try: vol = self.get_volume_by_path(src_fl) volume = vol.name() disk_size = vol.info()[1] stg = vol.storagePoolLookupByVolume() storage = stg.name() except libvirtError: volume = src_fl except: pass finally: result.append( {'dev': dev, 'image': volume, 'storage': storage, 'path': src_fl, 'format': disk_format, 'size': disk_size}) return result return util.get_xml_path(self._XMLDesc(0), func=disks) def get_media_device(self): def disks(ctx): result = [] dev = None volume = None storage = None src_fl = None for media in ctx.xpathEval('/domain/devices/disk'): device = media.xpathEval('@device')[0].content if device == 'cdrom': try: dev = media.xpathEval('target/@dev')[0].content try: src_fl = media.xpathEval('source/@file')[0].content vol = self.get_volume_by_path(src_fl) volume = vol.name() stg = vol.storagePoolLookupByVolume() storage = stg.name() except: src_fl = None volume = src_fl except: pass finally: result.append({'dev': dev, 'image': volume, 'storage': storage, 'path': src_fl}) return result return util.get_xml_path(self._XMLDesc(0), func=disks) 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': if elm.get('dev') == dev: src_media = ElementTree.Element('source') src_media.set('file', vol.path()) disk.insert(2, src_media) return True storages = self.get_storages() 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) self.instance.attachDevice(xml) xmldom = self._XMLDesc(VIR_DOMAIN_XML_SECURE) if self.get_status() == 5: xmldom = ElementTree.tostring(tree) 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': if elm.get('file') == image: src_media = elm if elm.tag == 'target': if elm.get('dev') == dev: disk.remove(src_media) if self.get_status() == 1: xml_disk = ElementTree.tostring(disk) self.instance.attachDevice(xml_disk) xmldom = self._XMLDesc(VIR_DOMAIN_XML_SECURE) if self.get_status() == 5: xmldom = ElementTree.tostring(tree) self._defineXML(xmldom) 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 ** 9L) else: cpu_usage['cpu'] = 0 return cpu_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_device()): 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_listen_addr(self): listen_addr = util.get_xml_path(self._XMLDesc(0), "/domain/devices/graphics/@listen") if listen_addr is None: listen_addr = util.get_xml_path(self._XMLDesc(0), "/domain/devices/graphics/listen/@address") if listen_addr is None: return "127.0.0.1" return listen_addr 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") 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 == '' or console_type not in QEMU_CONSOLE_TYPES: return False xml = self._XMLDesc(VIR_DOMAIN_XML_SECURE) root = ElementTree.fromstring(xml) try: graphic = root.find("devices/graphics[@type='%s']" % current_type) except SyntaxError: # Little fix for old version ElementTree graphic = root.find("devices/graphics") graphic.set('type', console_type) newxml = ElementTree.tostring(root) 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("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 if passwd: graphic.set('passwd', passwd) else: try: graphic.attrib.pop('passwd') except: pass newxml = ElementTree.tostring(root) 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: graphic.set('keymap', keymap) else: try: graphic.attrib.pop('keymap') except: pass newxml = ElementTree.tostring(root) 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 resize(self, cur_memory, memory, cur_vcpu, vcpu, disks=[]): """ Function change ram and cpu on vds. """ memory = int(memory) * 1024 cur_memory = int(cur_memory) * 1024 xml = self._XMLDesc(VIR_DOMAIN_XML_SECURE) tree = ElementTree.fromstring(xml) set_mem = tree.find('memory') set_mem.text = str(memory) set_cur_mem = tree.find('currentMemory') set_cur_mem.text = str(cur_memory) set_vcpu = tree.find('vcpu') set_vcpu.text = vcpu set_vcpu.set('current', cur_vcpu) for disk in disks: source_dev = disk['path'] vol = self.get_volume_by_path(source_dev) vol.resize(disk['size_new']) new_xml = ElementTree.tostring(tree) self._defineXML(new_xml) def get_iso_media(self): iso = [] storages = self.get_storages() for storage in storages: stg = self.get_storage(storage) if stg.info()[0] != 0: try: stg.refresh(0) except: pass for img in stg.listVolumes(): if img.endswith('.iso'): iso.append(img) return iso def delete_disk(self): disks = self.get_disk_device() 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): xml = """ %s shutoff %d""" % (name, time.time()) xml += self._XMLDesc(VIR_DOMAIN_XML_SECURE) xml += """0 """ self._snapshotCreateXML(xml, 0) def get_snapshot(self): snapshots = [] snapshot_list = self.instance.snapshotListNames(0) for snapshot in snapshot_list: snap = self.instance.snapshotLookupByName(snapshot, 0) snap_time_create = util.get_xml_path(snap.getXMLDesc(0), "/domainsnapshot/creationTime") snapshots.append({'date': datetime.fromtimestamp(int(snap_time_create)), 'name': snapshot}) return snapshots def snapshot_delete(self, snapshot): snap = self.instance.snapshotLookupByName(snapshot, 0) snap.delete(0) def snapshot_revert(self, snapshot): snap = self.instance.snapshotLookupByName(snapshot, 0) self.instance.revertToSnapshot(snap, 0) def get_managed_save_image(self): return self.instance.hasManagedSaveImage(0) def get_wvmStorage(self, pool): storage = wvmStorage(self.host, self.login, self.passwd, self.conn, pool) return storage def clone_instance(self, clone_data): clone_dev_path = [] xml = self._XMLDesc(VIR_DOMAIN_XML_SECURE) tree = ElementTree.fromstring(xml) name = tree.find('name') name.text = clone_data['name'] uuid = tree.find('uuid') tree.remove(uuid) for num, net in enumerate(tree.findall('devices/interface')): elm = net.find('mac') elm.set('address', clone_data['net-' + str(num)]) 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] try: meta_prealloc = clone_data['meta-' + device_name] except: meta_prealloc = False 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 = """ %s 0 0 """ % (target_file, vol_format) 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)) def change_network(self, network_data): xml = self._XMLDesc(VIR_DOMAIN_XML_SECURE) tree = ElementTree.fromstring(xml) for interface in tree.findall('devices/interface'): if interface.get('type') == 'bridge': source = interface.find('source') source.set('bridge', network_data['net-source-0']) new_xml = ElementTree.tostring(tree) self._defineXML(new_xml)