# QEMU Manual # https://qemu.weilnetz.de/doc/qemu-doc.html # For QEMU Monitor Protocol Commands Information, See # https://qemu.weilnetz.de/doc/qemu-doc.html#pcsys_005fmonitor import os import subprocess as sp import ipaddress from string import Template from os.path import join as join_path from uncloud.common.request import RequestEntry, RequestType from uncloud.common.vm import VMStatus, declare_stopped from uncloud.common.network import create_dev, delete_network_interface from uncloud.common.schemas import VMSchema, NetworkSchema from uncloud.host import logger from uncloud.shared import shared from uncloud.common.settings import settings from uncloud.vmm import VMM from marshmallow import ValidationError class VM: def __init__(self, vm_entry): self.schema = VMSchema() self.vmm = VMM() self.key = vm_entry.key try: self.vm = self.schema.loads(vm_entry.value) except ValidationError: logger.exception( "Couldn't validate VM Entry", vm_entry.value ) self.vm = None else: self.uuid = vm_entry.key.split("/")[-1] self.host_key = self.vm["hostname"] logger.debug('VM Hostname {}'.format(self.host_key)) def get_qemu_args(self): command = ( "-drive file={file},format=raw,if=virtio" " -device virtio-rng-pci" " -m {memory} -smp cores={cores},threads={threads}" " -name {owner}_{name}" ).format( owner=self.vm["owner"], name=self.vm["name"], memory=int(self.vm["specs"]["ram"].to_MB()), cores=self.vm["specs"]["cpu"], threads=1, file=shared.storage_handler.qemu_path_string(self.uuid), ) return command.split(" ") def start(self, destination_host_key=None): migration = False if destination_host_key: migration = True self.create() try: network_args = self.create_network_dev() except Exception as err: declare_stopped(self.vm) self.vm["log"].append("Cannot Setup Network Properly") logger.error("Cannot Setup Network Properly for vm %s", self.uuid, exc_info=err) else: self.vmm.start( uuid=self.uuid, migration=migration, *self.get_qemu_args(), *network_args ) status = self.vmm.get_status(self.uuid) logger.debug('VM {} status is {}'.format(self.uuid, status)) if status == "running": self.vm["status"] = VMStatus.running self.vm["vnc_socket"] = self.vmm.get_vnc(self.uuid) elif status == "inmigrate": r = RequestEntry.from_scratch( type=RequestType.TransferVM, # Transfer VM hostname=self.host_key, # Which VM should get this request. It is source host uuid=self.uuid, # uuid of VM destination_sock_path=join_path( self.vmm.socket_dir, self.uuid ), destination_host_key=destination_host_key, # Where source host transfer VM request_prefix=settings["etcd"]["request_prefix"], ) shared.request_pool.put(r) else: self.stop() declare_stopped(self.vm) logger.debug('VM {} has hostname {}'.format(self.uuid, self.vm['hostname'])) self.sync() def stop(self): self.vmm.stop(self.uuid) self.delete_network_dev() declare_stopped(self.vm) self.sync() def migrate(self, destination_host, destination_sock_path): self.vmm.transfer( src_uuid=self.uuid, destination_sock_path=destination_sock_path, host=destination_host, ) def create_network_dev(self): command = "" for network_mac_and_tap in self.vm["network"]: network_name, mac, tap = network_mac_and_tap _key = os.path.join( settings["etcd"]["network_prefix"], self.vm["owner"], network_name, ) network = shared.etcd_client.get(_key, value_in_json=True) network_schema = NetworkSchema() try: network = network_schema.load(network.value) except ValidationError: continue if network["type"] == "vxlan": tap = create_vxlan_br_tap( _id=network["id"], _dev=settings["network"]["vxlan_phy_dev"], tap_id=tap, ip=network["ipv6"], ) all_networks = shared.etcd_client.get_prefix( settings["etcd"]["network_prefix"], value_in_json=True, ) if ipaddress.ip_network(network["ipv6"]).is_global: update_radvd_conf(all_networks) command += ( "-netdev tap,id=vmnet{net_id},ifname={tap},script=no,downscript=no" " -device virtio-net-pci,netdev=vmnet{net_id},mac={mac}".format( tap=tap, net_id=network["id"], mac=mac ) ) if command: command = command.split(' ') return command def delete_network_dev(self): try: for network in self.vm["network"]: network_name = network[0] _ = network[1] # tap_mac tap_id = network[2] delete_network_interface("tap{}".format(tap_id)) owners_vms = shared.vm_pool.by_owner(self.vm["owner"]) owners_running_vms = shared.vm_pool.by_status( VMStatus.running, _vms=owners_vms ) networks = map( lambda n: n[0], map(lambda vm: vm.network, owners_running_vms), ) networks_in_use_by_user_vms = [vm[0] for vm in networks] if network_name not in networks_in_use_by_user_vms: network_entry = resolve_network( network[0], self.vm["owner"] ) if network_entry: network_type = network_entry.value["type"] network_id = network_entry.value["id"] if network_type == "vxlan": delete_network_interface( "br{}".format(network_id) ) delete_network_interface( "vxlan{}".format(network_id) ) except Exception: logger.exception("Exception in network interface deletion") def create(self): if shared.storage_handler.is_vm_image_exists(self.uuid): # File Already exists. No Problem Continue logger.debug("Image for vm %s exists", self.uuid) else: if shared.storage_handler.make_vm_image( src=self.vm["image_uuid"], dest=self.uuid ): if not shared.storage_handler.resize_vm_image( path=self.uuid, size=int(self.vm["specs"]["os-ssd"].to_MB()), ): self.vm["status"] = VMStatus.error else: logger.info("New VM Created") def sync(self): shared.etcd_client.put( self.key, self.schema.dump(self.vm), value_in_json=True ) def delete(self): self.stop() if shared.storage_handler.is_vm_image_exists(self.uuid): r_status = shared.storage_handler.delete_vm_image(self.uuid) if r_status: shared.etcd_client.client.delete(self.key) else: shared.etcd_client.client.delete(self.key) def resolve_network(network_name, network_owner): network = shared.etcd_client.get( join_path( settings["etcd"]["network_prefix"], network_owner, network_name, ), value_in_json=True, ) return network def create_vxlan_br_tap(_id, _dev, tap_id, ip=None): network_script_base = os.path.join( os.path.dirname(os.path.dirname(__file__)), "network" ) vxlan = create_dev( script=os.path.join(network_script_base, "create-vxlan.sh"), _id=_id, dev=_dev, ) if vxlan: bridge = create_dev( script=os.path.join( network_script_base, "create-bridge.sh" ), _id=_id, dev=vxlan, ip=ip, ) if bridge: tap = create_dev( script=os.path.join( network_script_base, "create-tap.sh" ), _id=str(tap_id), dev=bridge, ) if tap: return tap def update_radvd_conf(all_networks): network_script_base = os.path.join( os.path.dirname(os.path.dirname(__file__)), "network" ) networks = { net.value["ipv6"]: net.value["id"] for net in all_networks if net.value.get("ipv6") and ipaddress.ip_network(net.value.get("ipv6")).is_global } radvd_template = open( os.path.join(network_script_base, "radvd-template.conf"), "r" ).read() radvd_template = Template(radvd_template) content = [ radvd_template.safe_substitute( bridge="br{}".format(networks[net]), prefix=net ) for net in networks if networks.get(net) ] with open("/etc/radvd.conf", "w") as radvd_conf: radvd_conf.writelines(content) try: sp.check_output(["systemctl", "restart", "radvd"]) except sp.CalledProcessError: try: sp.check_output(["service", "radvd", "restart"]) except sp.CalledProcessError as err: raise err.__class__( "Cannot start/restart radvd service", err.cmd ) from err