# -*- coding: utf-8 -*- ''' Work with virtual machines managed by libvirt :depends: libvirt Python module ''' # Special Thanks to Michael Dehann, many of the concepts, and a few structures # of his in the virt func module have been used # Import python libs from __future__ import absolute_import import copy import os import re import sys import shutil import subprocess import string # pylint: disable=deprecated-module import logging # Import third party libs import yaml import jinja2 import jinja2.exceptions import salt.ext.six as six from salt.ext.six.moves import StringIO as _StringIO # pylint: disable=import-error from xml.dom import minidom try: import libvirt # pylint: disable=import-error HAS_ALL_IMPORTS = True except ImportError: HAS_ALL_IMPORTS = False # Import salt libs import salt.utils import salt.utils.files import salt.utils.templates import salt.utils.validate.net from salt.exceptions import CommandExecutionError, SaltInvocationError log = logging.getLogger(__name__) # Set up template environment JINJA = jinja2.Environment( loader=jinja2.FileSystemLoader( os.path.join(salt.utils.templates.TEMPLATE_DIRNAME, 'virt') ) ) VIRT_STATE_NAME_MAP = {0: 'running', 1: 'running', 2: 'running', 3: 'paused', 4: 'shutdown', 5: 'shutdown', 6: 'crashed'} VIRT_DEFAULT_HYPER = 'kvm' def __virtual__(): if not HAS_ALL_IMPORTS: return False return 'virtng' def __get_conn(): ''' Detects what type of dom this node is and attempts to connect to the correct hypervisor via libvirt. ''' # This has only been tested on kvm and xen, it needs to be expanded to # support all vm layers supported by libvirt def __esxi_uri(): ''' Connect to an ESXi host with a configuration like so: .. code-block:: yaml libvirt: hypervisor: esxi connection: esx01 The connection setting can either be an explicit libvirt URI, or a libvirt URI alias as in this example. No, it cannot be just a hostname. Example libvirt `/etc/libvirt/libvirt.conf`: .. code-block:: uri_aliases = [ "esx01=esx://10.1.1.101/?no_verify=1&auto_answer=1", "esx02=esx://10.1.1.102/?no_verify=1&auto_answer=1", ] Reference: - http://libvirt.org/drvesx.html#uriformat - http://libvirt.org/uri.html#URI_config ''' connection = __salt__['config.get']('libvirt:connection', 'esx') return connection def __esxi_auth(): ''' We rely on that the credentials is provided to libvirt through its built in mechanisms. Example libvirt `/etc/libvirt/auth.conf`: .. code-block:: [credentials-myvirt] username=user password=secret [auth-esx-10.1.1.101] credentials=myvirt [auth-esx-10.1.1.102] credentials=myvirt Reference: - http://libvirt.org/auth.html#Auth_client_config ''' return [[libvirt.VIR_CRED_EXTERNAL], lambda: 0, None] if 'virt.connect' in __opts__: conn_str = __opts__['virt.connect'] else: conn_str = 'qemu:///system' conn_func = { 'esxi': [libvirt.openAuth, [__esxi_uri(), __esxi_auth(), 0]], 'qemu': [libvirt.open, [conn_str]], } hypervisor = __salt__['config.get']('libvirt:hypervisor', 'qemu') try: conn = conn_func[hypervisor][0](*conn_func[hypervisor][1]) except Exception: raise CommandExecutionError( 'Sorry, {0} failed to open a connection to the hypervisor ' 'software at {1}'.format( __grains__['fqdn'], conn_func[hypervisor][1][0] ) ) return conn def _get_dom(vm_): ''' Return a domain object for the named vm ''' conn = __get_conn() if vm_ not in list_vms(): raise CommandExecutionError('The specified vm is not present') return conn.lookupByName(vm_) def _libvirt_creds(): ''' Returns the user and group that the disk images should be owned by ''' g_cmd = 'grep ^\\s*group /etc/libvirt/qemu.conf' u_cmd = 'grep ^\\s*user /etc/libvirt/qemu.conf' try: group = subprocess.Popen(g_cmd, shell=True, stdout=subprocess.PIPE).communicate()[0].split('"')[1] except IndexError: group = 'root' try: user = subprocess.Popen(u_cmd, shell=True, stdout=subprocess.PIPE).communicate()[0].split('"')[1] except IndexError: user = 'root' return {'user': user, 'group': group} def _get_migrate_command(): ''' Returns the command shared by the different migration types ''' if __salt__['config.option']('virt.tunnel'): return ('virsh migrate --p2p --tunnelled --live --persistent ' '--undefinesource ') return 'virsh migrate --live --persistent --undefinesource ' def _get_target(target, ssh): proto = 'qemu' if ssh: proto += '+ssh' return ' {0}://{1}/{2}'.format(proto, target, 'system') def _gen_xml(name, cpu, mem, diskp, nicp, hypervisor, **kwargs): ''' Generate the XML string to define a libvirt vm ''' hypervisor = 'vmware' if hypervisor == 'esxi' else hypervisor mem = mem * 1024 # MB context = { 'hypervisor': hypervisor, 'name': name, 'cpu': str(cpu), 'mem': str(mem), } if hypervisor in ['qemu', 'kvm']: context['controller_model'] = False elif hypervisor in ['esxi', 'vmware']: # TODO: make bus and model parameterized, this works for 64-bit Linux context['controller_model'] = 'lsilogic' if 'boot_dev' in kwargs: context['boot_dev'] = [] for dev in kwargs['boot_dev'].split(): context['boot_dev'].append(dev) else: context['boot_dev'] = ['hd'] if 'serial_type' in kwargs: context['serial_type'] = kwargs['serial_type'] if 'serial_type' in context and context['serial_type'] == 'tcp': if 'telnet_port' in kwargs: context['telnet_port'] = kwargs['telnet_port'] else: context['telnet_port'] = 23023 # FIXME: use random unused port if 'serial_type' in context: if 'console' in kwargs: context['console'] = kwargs['console'] else: context['console'] = True context['disks'] = {} for i, disk in enumerate(diskp): for disk_name, args in disk.items(): context['disks'][disk_name] = {} fn_ = '{0}.{1}'.format(disk_name, args['format']) context['disks'][disk_name]['file_name'] = fn_ context['disks'][disk_name]['source_file'] = os.path.join(args['pool'], name, fn_) if hypervisor in ['qemu', 'kvm']: context['disks'][disk_name]['target_dev'] = 'vd{0}'.format(string.ascii_lowercase[i]) context['disks'][disk_name]['address'] = False context['disks'][disk_name]['driver'] = True elif hypervisor in ['esxi', 'vmware']: context['disks'][disk_name]['target_dev'] = 'sd{0}'.format(string.ascii_lowercase[i]) context['disks'][disk_name]['address'] = True context['disks'][disk_name]['driver'] = False context['disks'][disk_name]['disk_bus'] = args['model'] context['disks'][disk_name]['type'] = args['format'] context['disks'][disk_name]['index'] = str(i) context['nics'] = nicp fn_ = 'libvirt_domain.jinja' try: template = JINJA.get_template(fn_) except jinja2.exceptions.TemplateNotFound: log.error('Could not load template {0}'.format(fn_)) return '' return template.render(**context) def _gen_vol_xml(vmname, diskname, size, hypervisor, **kwargs): ''' Generate the XML string to define a libvirt storage volume ''' size = int(size) * 1024 # MB disk_info = _get_image_info(hypervisor, vmname, **kwargs) context = { 'name': vmname, 'filename': '{0}.{1}'.format(diskname, disk_info['disktype']), 'volname': diskname, 'disktype': disk_info['disktype'], 'size': str(size), 'pool': disk_info['pool'], } fn_ = 'libvirt_volume.jinja' try: template = JINJA.get_template(fn_) except jinja2.exceptions.TemplateNotFound: log.error('Could not load template {0}'.format(fn_)) return '' return template.render(**context) def _qemu_image_info(path): ''' Detect information for the image at path ''' ret = {} out = __salt__['cmd.run']('qemu-img info {0}'.format(path)) match_map = {'size': r'virtual size: \w+ \((\d+) byte[s]?\)', 'format': r'file format: (\w+)'} for info, search in match_map.items(): try: ret[info] = re.search(search, out).group(1) except AttributeError: continue return ret # TODO: this function is deprecated, should be replaced with # _qemu_image_info() def _image_type(vda): ''' Detect what driver needs to be used for the given image ''' out = __salt__['cmd.run']('qemu-img info {0}'.format(vda)) if 'file format: qcow2' in out: return 'qcow2' else: return 'raw' # TODO: this function is deprecated, should be merged and replaced # with _disk_profile() def _get_image_info(hypervisor, name, **kwargs): ''' Determine disk image info, such as filename, image format and storage pool, based on which hypervisor is used ''' ret = {} if hypervisor in ['esxi', 'vmware']: ret['disktype'] = 'vmdk' ret['filename'] = '{0}{1}'.format(name, '.vmdk') ret['pool'] = '[{0}] '.format(kwargs.get('pool', '0')) elif hypervisor in ['kvm', 'qemu']: ret['disktype'] = 'qcow2' ret['filename'] = '{0}{1}'.format(name, '.qcow2') if 'img_dest' in kwargs: ret['pool'] = kwargs['img_dest'] else: ret['pool'] = __salt__['config.option']('virt.images') return ret def _disk_profile(profile, hypervisor, **kwargs): ''' Gather the disk profile from the config or apply the default based on the active hypervisor This is the ``default`` profile for KVM/QEMU, which can be overridden in the configuration: .. code-block:: yaml virt: disk: default: - system: size: 8192 format: qcow2 model: virtio Example profile for KVM/QEMU with two disks, first is created from specified image, the second is empty: .. code-block:: yaml virt: disk: two_disks: - system: size: 8192 format: qcow2 model: virtio image: http://path/to/image.qcow2 - lvm: size: 32768 format: qcow2 model: virtio The ``format`` and ``model`` parameters are optional, and will default to whatever is best suitable for the active hypervisor. ''' default = [ {'system': {'size': '8192'} } ] if hypervisor in ['esxi', 'vmware']: overlay = {'format': 'vmdk', 'model': 'scsi', 'pool': '[{0}] '.format(kwargs.get('pool', '0')) } elif hypervisor in ['qemu', 'kvm']: if 'img_dest' in kwargs: pool = kwargs['img_dest'] else: pool = __salt__['config.option']('virt.images') overlay = {'format': 'qcow2', 'model': 'virtio', 'pool': pool} else: overlay = {} disklist = copy.deepcopy(__salt__['config.get']('virt:disk', {}).get(profile, default)) for key, val in overlay.items(): for i, disks in enumerate(disklist): for disk in disks: if key not in disks[disk]: disklist[i][disk][key] = val return disklist def _nic_profile(profile_name, hypervisor, **kwargs): default = [{'eth0': {}}] vmware_overlay = {'type': 'bridge', 'source': 'DEFAULT', 'model': 'e1000'} kvm_overlay = {'type': 'bridge', 'source': 'br0', 'model': 'virtio'} overlays = { 'kvm': kvm_overlay, 'qemu': kvm_overlay, 'esxi': vmware_overlay, 'vmware': vmware_overlay, } # support old location config_data = __salt__['config.option']('virt.nic', {}).get( profile_name, None ) if config_data is None: config_data = __salt__['config.get']('virt:nic', {}).get( profile_name, default ) interfaces = [] def append_dict_profile_to_interface_list(profile_dict): for interface_name, attributes in profile_dict.items(): attributes['name'] = interface_name interfaces.append(attributes) # old style dicts (top-level dicts) # # virt: # nic: # eth0: # bridge: br0 # eth1: # network: test_net if isinstance(config_data, dict): append_dict_profile_to_interface_list(config_data) # new style lists (may contain dicts) # # virt: # nic: # - eth0: # bridge: br0 # - eth1: # network: test_net # # virt: # nic: # - name: eth0 # bridge: br0 # - name: eth1 # network: test_net elif isinstance(config_data, list): for interface in config_data: if isinstance(interface, dict): if len(interface) == 1: append_dict_profile_to_interface_list(interface) else: interfaces.append(interface) def _normalize_net_types(attributes): ''' Guess which style of definition: bridge: br0 or network: net0 or type: network source: net0 ''' for type_ in ['bridge', 'network']: if type_ in attributes: attributes['type'] = type_ # we want to discard the original key attributes['source'] = attributes.pop(type_) attributes['type'] = attributes.get('type', None) attributes['source'] = attributes.get('source', None) def _apply_default_overlay(attributes): for key, value in overlays[hypervisor].items(): if key not in attributes or not attributes[key]: attributes[key] = value def _assign_mac(attributes): dmac = '{0}_mac'.format(attributes['name']) if dmac in kwargs: dmac = kwargs[dmac] if salt.utils.validate.net.mac(dmac): attributes['mac'] = dmac else: msg = 'Malformed MAC address: {0}'.format(dmac) raise CommandExecutionError(msg) else: attributes['mac'] = salt.utils.gen_mac() for interface in interfaces: _normalize_net_types(interface) _assign_mac(interface) if hypervisor in overlays: _apply_default_overlay(interface) return interfaces def init(name, cpu, mem, image=None, nic='default', hypervisor=VIRT_DEFAULT_HYPER, start=True, # pylint: disable=redefined-outer-name disk='default', saltenv='base', **kwargs): ''' Initialize a new vm CLI Example: .. code-block:: bash salt 'hypervisor' virt.init vm_name 4 512 salt://path/to/image.raw salt 'hypervisor' virt.init vm_name 4 512 nic=profile disk=profile ''' hypervisor = __salt__['config.get']('libvirt:hypervisor', hypervisor) nicp = _nic_profile(nic, hypervisor, **kwargs) diskp = _disk_profile(disk, hypervisor, **kwargs) if image: # Backward compatibility: if 'image' is specified in the VMs arguments # instead of a disk arguments. In this case, 'image' will be assigned # to the first disk for the VM. disk_name = next(diskp[0].iterkeys()) if not diskp[0][disk_name].get('image', None): diskp[0][disk_name]['image'] = image # Create multiple disks, empty or from specified images. for disk in diskp: log.debug("Creating disk for VM [ {0} ]: {1}".format(name, disk)) for disk_name, args in disk.items(): if hypervisor in ['esxi', 'vmware']: if 'image' in args: # TODO: we should be copying the image file onto the ESX host raise SaltInvocationError('virt.init does not support image ' 'template template in conjunction ' 'with esxi hypervisor') else: # assume libvirt manages disks for us xml = _gen_vol_xml(name, disk_name, args['size'], hypervisor, **kwargs) define_vol_xml_str(xml) elif hypervisor in ['qemu', 'kvm']: disk_type = args['format'] disk_file_name = '{0}.{1}'.format(disk_name, disk_type) # disk size TCP cloud disk_size = args['size'] if 'img_dest' in kwargs: img_dir = kwargs['img_dest'] else: img_dir = __salt__['config.option']('virt.images') img_dest = os.path.join( img_dir, name, disk_file_name ) img_dir = os.path.dirname(img_dest) if not os.path.isdir(img_dir): os.makedirs(img_dir) if 'image' in args: # Create disk from specified image sfn = __salt__['cp.cache_file'](args['image'], saltenv) try: salt.utils.files.copyfile(sfn, img_dest) mask = os.umask(0) os.umask(mask) # Apply umask and remove exec bit # Resizing image TCP cloud cmd = 'qemu-img resize ' + img_dest + ' ' + str(disk_size) + 'M' subprocess.call(cmd, shell=True) mode = (0o0777 ^ mask) & 0o0666 os.chmod(img_dest, mode) except (IOError, OSError) as e: raise CommandExecutionError('problem while copying image. {0} - {1}'.format(args['image'], e)) if kwargs.get('seed'): install = kwargs.get('install', True) seed_cmd = kwargs.get('seed_cmd', 'seedng.apply') __salt__[seed_cmd](img_dest, id_=name, config=kwargs.get('config'), install=install) else: # Create empty disk try: mask = os.umask(0) os.umask(mask) # Apply umask and remove exec bit # Create empty image cmd = 'qemu-img create -f ' + disk_type + ' ' + img_dest + ' ' + str(disk_size) + 'M' subprocess.call(cmd, shell=True) mode = (0o0777 ^ mask) & 0o0666 os.chmod(img_dest, mode) except (IOError, OSError) as e: raise CommandExecutionError('problem while creating volume {0} - {1}'.format(img_dest, e)) else: # Unknown hypervisor raise SaltInvocationError('Unsupported hypervisor when handling disk image: {0}' .format(hypervisor)) xml = _gen_xml(name, cpu, mem, diskp, nicp, hypervisor, **kwargs) define_xml_str(xml) if start: create(name) return True def list_vms(): ''' Return a list of virtual machine names on the minion CLI Example: .. code-block:: bash salt '*' virtng.list_vms ''' vms = [] vms.extend(list_active_vms()) vms.extend(list_inactive_vms()) return vms def list_active_vms(): ''' Return a list of names for active virtual machine on the minion CLI Example: .. code-block:: bash salt '*' virtng.list_active_vms ''' conn = __get_conn() vms = [] for id_ in conn.listDomainsID(): vms.append(conn.lookupByID(id_).name()) return vms def list_inactive_vms(): ''' Return a list of names for inactive virtual machine on the minion CLI Example: .. code-block:: bash salt '*' virtng.list_inactive_vms ''' conn = __get_conn() vms = [] for id_ in conn.listDefinedDomains(): vms.append(id_) return vms def vm_info(vm_=None): ''' Return detailed information about the vms on this hyper in a list of dicts: .. code-block:: python [ 'your-vm': { 'cpu': , 'maxMem': , 'mem': , 'state': '', 'cputime' }, ... ] If you pass a VM name in as an argument then it will return info for just the named VM, otherwise it will return all VMs. CLI Example: .. code-block:: bash salt '*' virtng.vm_info ''' def _info(vm_): dom = _get_dom(vm_) raw = dom.info() return {'cpu': raw[3], 'cputime': int(raw[4]), 'disks': get_disks(vm_), 'graphics': get_graphics(vm_), 'nics': get_nics(vm_), 'maxMem': int(raw[1]), 'mem': int(raw[2]), 'state': VIRT_STATE_NAME_MAP.get(raw[0], 'unknown')} info = {} if vm_: info[vm_] = _info(vm_) else: for vm_ in list_vms(): info[vm_] = _info(vm_) return info def vm_state(vm_=None): ''' Return list of all the vms and their state. If you pass a VM name in as an argument then it will return info for just the named VM, otherwise it will return all VMs. CLI Example: .. code-block:: bash salt '*' virtng.vm_state ''' def _info(vm_): state = '' dom = _get_dom(vm_) raw = dom.info() state = VIRT_STATE_NAME_MAP.get(raw[0], 'unknown') return state info = {} if vm_: info[vm_] = _info(vm_) else: for vm_ in list_vms(): info[vm_] = _info(vm_) return info def node_info(): ''' Return a dict with information about this node CLI Example: .. code-block:: bash salt '*' virtng.node_info ''' conn = __get_conn() raw = conn.getInfo() info = {'cpucores': raw[6], 'cpumhz': raw[3], 'cpumodel': str(raw[0]), 'cpus': raw[2], 'cputhreads': raw[7], 'numanodes': raw[4], 'phymemory': raw[1], 'sockets': raw[5]} return info def get_nics(vm_): ''' Return info about the network interfaces of a named vm CLI Example: .. code-block:: bash salt '*' virtng.get_nics ''' nics = {} doc = minidom.parse(_StringIO(get_xml(vm_))) for node in doc.getElementsByTagName('devices'): i_nodes = node.getElementsByTagName('interface') for i_node in i_nodes: nic = {} nic['type'] = i_node.getAttribute('type') for v_node in i_node.getElementsByTagName('*'): if v_node.tagName == 'mac': nic['mac'] = v_node.getAttribute('address') if v_node.tagName == 'model': nic['model'] = v_node.getAttribute('type') if v_node.tagName == 'target': nic['target'] = v_node.getAttribute('dev') # driver, source, and match can all have optional attributes if re.match('(driver|source|address)', v_node.tagName): temp = {} for key, value in v_node.attributes.items(): temp[key] = value nic[str(v_node.tagName)] = temp # virtualport needs to be handled separately, to pick up the # type attribute of the virtualport itself if v_node.tagName == 'virtualport': temp = {} temp['type'] = v_node.getAttribute('type') for key, value in v_node.attributes.items(): temp[key] = value nic['virtualport'] = temp if 'mac' not in nic: continue nics[nic['mac']] = nic return nics def get_macs(vm_): ''' Return a list off MAC addresses from the named vm CLI Example: .. code-block:: bash salt '*' virtng.get_macs ''' macs = [] doc = minidom.parse(_StringIO(get_xml(vm_))) for node in doc.getElementsByTagName('devices'): i_nodes = node.getElementsByTagName('interface') for i_node in i_nodes: for v_node in i_node.getElementsByTagName('mac'): macs.append(v_node.getAttribute('address')) return macs def get_graphics(vm_): ''' Returns the information on vnc for a given vm CLI Example: .. code-block:: bash salt '*' virtng.get_graphics ''' out = {'autoport': 'None', 'keymap': 'None', 'listen': 'None', 'port': 'None', 'type': 'vnc'} xml = get_xml(vm_) ssock = _StringIO(xml) doc = minidom.parse(ssock) for node in doc.getElementsByTagName('domain'): g_nodes = node.getElementsByTagName('graphics') for g_node in g_nodes: for key, value in g_node.attributes.items(): out[key] = value return out def get_disks(vm_): ''' Return the disks of a named vm CLI Example: .. code-block:: bash salt '*' virtng.get_disks ''' disks = {} doc = minidom.parse(_StringIO(get_xml(vm_))) for elem in doc.getElementsByTagName('disk'): sources = elem.getElementsByTagName('source') targets = elem.getElementsByTagName('target') if len(sources) > 0: source = sources[0] else: continue if len(targets) > 0: target = targets[0] else: continue if target.hasAttribute('dev'): qemu_target = '' if source.hasAttribute('file'): qemu_target = source.getAttribute('file') elif source.hasAttribute('dev'): qemu_target = source.getAttribute('dev') elif source.hasAttribute('protocol') and \ source.hasAttribute('name'): # For rbd network qemu_target = '{0}:{1}'.format( source.getAttribute('protocol'), source.getAttribute('name')) if qemu_target: disks[target.getAttribute('dev')] = { 'file': qemu_target} for dev in disks: try: hypervisor = __salt__['config.get']('libvirt:hypervisor', 'kvm') if hypervisor not in ['qemu', 'kvm']: break output = [] qemu_output = subprocess.Popen(['qemu-img', 'info', disks[dev]['file']], shell=False, stdout=subprocess.PIPE).communicate()[0] snapshots = False columns = None lines = qemu_output.strip().split('\n') for line in lines: if line.startswith('Snapshot list:'): snapshots = True continue # If this is a copy-on-write image, then the backing file # represents the base image # # backing file: base.qcow2 (actual path: /var/shared/base.qcow2) elif line.startswith('backing file'): matches = re.match(r'.*\(actual path: (.*?)\)', line) if matches: output.append('backing file: {0}'.format(matches.group(1))) continue elif snapshots: if line.startswith('ID'): # Do not parse table headers line = line.replace('VM SIZE', 'VMSIZE') line = line.replace('VM CLOCK', 'TIME VMCLOCK') columns = re.split(r'\s+', line) columns = [c.lower() for c in columns] output.append('snapshots:') continue fields = re.split(r'\s+', line) for i, field in enumerate(fields): sep = ' ' if i == 0: sep = '-' output.append( '{0} {1}: "{2}"'.format( sep, columns[i], field ) ) continue output.append(line) output = '\n'.join(output) disks[dev].update(yaml.safe_load(output)) except TypeError: disks[dev].update(yaml.safe_load('image: Does not exist')) return disks def setmem(vm_, memory, config=False): ''' Changes the amount of memory allocated to VM. The VM must be shutdown for this to work. memory is to be specified in MB If config is True then we ask libvirt to modify the config as well CLI Example: .. code-block:: bash salt '*' virtng.setmem myvm 768 ''' if vm_state(vm_) != 'shutdown': return False dom = _get_dom(vm_) # libvirt has a funny bitwise system for the flags in that the flag # to affect the "current" setting is 0, which means that to set the # current setting we have to call it a second time with just 0 set flags = libvirt.VIR_DOMAIN_MEM_MAXIMUM if config: flags = flags | libvirt.VIR_DOMAIN_AFFECT_CONFIG ret1 = dom.setMemoryFlags(memory * 1024, flags) ret2 = dom.setMemoryFlags(memory * 1024, libvirt.VIR_DOMAIN_AFFECT_CURRENT) # return True if both calls succeeded return ret1 == ret2 == 0 def setvcpus(vm_, vcpus, config=False): ''' Changes the amount of vcpus allocated to VM. The VM must be shutdown for this to work. vcpus is an int representing the number to be assigned If config is True then we ask libvirt to modify the config as well CLI Example: .. code-block:: bash salt '*' virtng.setvcpus myvm 2 ''' if vm_state(vm_) != 'shutdown': return False dom = _get_dom(vm_) # see notes in setmem flags = libvirt.VIR_DOMAIN_VCPU_MAXIMUM if config: flags = flags | libvirt.VIR_DOMAIN_AFFECT_CONFIG ret1 = dom.setVcpusFlags(vcpus, flags) ret2 = dom.setVcpusFlags(vcpus, libvirt.VIR_DOMAIN_AFFECT_CURRENT) return ret1 == ret2 == 0 def freemem(): ''' Return an int representing the amount of memory that has not been given to virtual machines on this node CLI Example: .. code-block:: bash salt '*' virtng.freemem ''' conn = __get_conn() mem = conn.getInfo()[1] # Take off just enough to sustain the hypervisor mem -= 256 for vm_ in list_vms(): dom = _get_dom(vm_) if dom.ID() > 0: mem -= dom.info()[2] / 1024 return mem def freecpu(): ''' Return an int representing the number of unallocated cpus on this hypervisor CLI Example: .. code-block:: bash salt '*' virtng.freecpu ''' conn = __get_conn() cpus = conn.getInfo()[2] for vm_ in list_vms(): dom = _get_dom(vm_) if dom.ID() > 0: cpus -= dom.info()[3] return cpus def full_info(): ''' Return the node_info, vm_info and freemem CLI Example: .. code-block:: bash salt '*' virtng.full_info ''' return {'freecpu': freecpu(), 'freemem': freemem(), 'node_info': node_info(), 'vm_info': vm_info()} def get_xml(vm_): ''' Returns the XML for a given vm CLI Example: .. code-block:: bash salt '*' virtng.get_xml ''' dom = _get_dom(vm_) return dom.XMLDesc(0) def get_profiles(hypervisor=None): ''' Return the virt profiles for hypervisor. Currently there are profiles for: - nic - disk CLI Example: .. code-block:: bash salt '*' virtng.get_profiles salt '*' virtng.get_profiles hypervisor=esxi ''' ret = {} if hypervisor: hypervisor = hypervisor else: hypervisor = __salt__['config.get']('libvirt:hypervisor', VIRT_DEFAULT_HYPER) virtconf = __salt__['config.get']('virt', {}) for typ in ['disk', 'nic']: _func = getattr(sys.modules[__name__], '_{0}_profile'.format(typ)) ret[typ] = {'default': _func('default', hypervisor)} if typ in virtconf: ret.setdefault(typ, {}) for prf in virtconf[typ]: ret[typ][prf] = _func(prf, hypervisor) return ret def shutdown(vm_): ''' Send a soft shutdown signal to the named vm CLI Example: .. code-block:: bash salt '*' virtng.shutdown ''' dom = _get_dom(vm_) return dom.shutdown() == 0 def pause(vm_): ''' Pause the named vm CLI Example: .. code-block:: bash salt '*' virtng.pause ''' dom = _get_dom(vm_) return dom.suspend() == 0 def resume(vm_): ''' Resume the named vm CLI Example: .. code-block:: bash salt '*' virtng.resume ''' dom = _get_dom(vm_) return dom.resume() == 0 def create(vm_): ''' Start a defined domain CLI Example: .. code-block:: bash salt '*' virtng.create ''' dom = _get_dom(vm_) return dom.create() == 0 def start(vm_): ''' Alias for the obscurely named 'create' function CLI Example: .. code-block:: bash salt '*' virtng.start ''' return create(vm_) def stop(vm_): ''' Alias for the obscurely named 'destroy' function CLI Example: .. code-block:: bash salt '*' virtng.stop ''' return destroy(vm_) def reboot(vm_): ''' Reboot a domain via ACPI request CLI Example: .. code-block:: bash salt '*' virtng.reboot ''' dom = _get_dom(vm_) # reboot has a few modes of operation, passing 0 in means the # hypervisor will pick the best method for rebooting return dom.reboot(0) == 0 def reset(vm_): ''' Reset a VM by emulating the reset button on a physical machine CLI Example: .. code-block:: bash salt '*' virtng.reset ''' dom = _get_dom(vm_) # reset takes a flag, like reboot, but it is not yet used # so we just pass in 0 # see: http://libvirt.org/html/libvirt-libvirt.html#virDomainReset return dom.reset(0) == 0 def ctrl_alt_del(vm_): ''' Sends CTRL+ALT+DEL to a VM CLI Example: .. code-block:: bash salt '*' virtng.ctrl_alt_del ''' dom = _get_dom(vm_) return dom.sendKey(0, 0, [29, 56, 111], 3, 0) == 0 def create_xml_str(xml): ''' Start a domain based on the XML passed to the function CLI Example: .. code-block:: bash salt '*' virtng.create_xml_str ''' conn = __get_conn() return conn.createXML(xml, 0) is not None def create_xml_path(path): ''' Start a domain based on the XML-file path passed to the function CLI Example: .. code-block:: bash salt '*' virtng.create_xml_path ''' if not os.path.isfile(path): return False return create_xml_str(salt.utils.fopen(path, 'r').read()) def define_xml_str(xml): ''' Define a domain based on the XML passed to the function CLI Example: .. code-block:: bash salt '*' virtng.define_xml_str ''' conn = __get_conn() return conn.defineXML(xml) is not None def define_xml_path(path): ''' Define a domain based on the XML-file path passed to the function CLI Example: .. code-block:: bash salt '*' virtng.define_xml_path ''' if not os.path.isfile(path): return False return define_xml_str(salt.utils.fopen(path, 'r').read()) def define_vol_xml_str(xml): ''' Define a volume based on the XML passed to the function CLI Example: .. code-block:: bash salt '*' virtng.define_vol_xml_str ''' poolname = __salt__['config.get']('libvirt:storagepool', 'default') conn = __get_conn() pool = conn.storagePoolLookupByName(str(poolname)) return pool.createXML(xml, 0) is not None def define_vol_xml_path(path): ''' Define a volume based on the XML-file path passed to the function CLI Example: .. code-block:: bash salt '*' virtng.define_vol_xml_path ''' if not os.path.isfile(path): return False return define_vol_xml_str(salt.utils.fopen(path, 'r').read()) def migrate_non_shared(vm_, target, ssh=False): ''' Attempt to execute non-shared storage "all" migration CLI Example: .. code-block:: bash salt '*' virtng.migrate_non_shared ''' cmd = _get_migrate_command() + ' --copy-storage-all ' + vm_\ + _get_target(target, ssh) return subprocess.Popen(cmd, shell=True, stdout=subprocess.PIPE).communicate()[0] def migrate_non_shared_inc(vm_, target, ssh=False): ''' Attempt to execute non-shared storage "all" migration CLI Example: .. code-block:: bash salt '*' virtng.migrate_non_shared_inc ''' cmd = _get_migrate_command() + ' --copy-storage-inc ' + vm_\ + _get_target(target, ssh) return subprocess.Popen(cmd, shell=True, stdout=subprocess.PIPE).communicate()[0] def migrate(vm_, target, ssh=False): ''' Shared storage migration CLI Example: .. code-block:: bash salt '*' virtng.migrate ''' cmd = _get_migrate_command() + ' ' + vm_\ + _get_target(target, ssh) return subprocess.Popen(cmd, shell=True, stdout=subprocess.PIPE).communicate()[0] def seed_non_shared_migrate(disks, force=False): ''' Non shared migration requires that the disks be present on the migration destination, pass the disks information via this function, to the migration destination before executing the migration. CLI Example: .. code-block:: bash salt '*' virtng.seed_non_shared_migrate ''' for _, data in disks.items(): fn_ = data['file'] form = data['file format'] size = data['virtual size'].split()[1][1:] if os.path.isfile(fn_) and not force: # the target exists, check to see if it is compatible pre = yaml.safe_load(subprocess.Popen('qemu-img info arch', shell=True, stdout=subprocess.PIPE).communicate()[0]) if pre['file format'] != data['file format']\ and pre['virtual size'] != data['virtual size']: return False if not os.path.isdir(os.path.dirname(fn_)): os.makedirs(os.path.dirname(fn_)) if os.path.isfile(fn_): os.remove(fn_) cmd = 'qemu-img create -f ' + form + ' ' + fn_ + ' ' + size subprocess.call(cmd, shell=True) creds = _libvirt_creds() cmd = 'chown ' + creds['user'] + ':' + creds['group'] + ' ' + fn_ subprocess.call(cmd, shell=True) return True def set_autostart(vm_, state='on'): ''' Set the autostart flag on a VM so that the VM will start with the host system on reboot. CLI Example: .. code-block:: bash salt "*" virt.set_autostart ''' dom = _get_dom(vm_) if state == 'on': return dom.setAutostart(1) == 0 elif state == 'off': return dom.setAutostart(0) == 0 else: # return False if state is set to something other then on or off return False def destroy(vm_): ''' Hard power down the virtual machine, this is equivalent to pulling the power CLI Example: .. code-block:: bash salt '*' virtng.destroy ''' dom = _get_dom(vm_) return dom.destroy() == 0 def undefine(vm_): ''' Remove a defined vm, this does not purge the virtual machine image, and this only works if the vm is powered down CLI Example: .. code-block:: bash salt '*' virtng.undefine ''' dom = _get_dom(vm_) return dom.undefine() == 0 def purge(vm_, dirs=False): ''' Recursively destroy and delete a virtual machine, pass True for dir's to also delete the directories containing the virtual machine disk images - USE WITH EXTREME CAUTION! CLI Example: .. code-block:: bash salt '*' virtng.purge ''' disks = get_disks(vm_) try: if not destroy(vm_): return False except libvirt.libvirtError: # This is thrown if the machine is already shut down pass directories = set() for disk in disks: os.remove(disks[disk]['file']) directories.add(os.path.dirname(disks[disk]['file'])) if dirs: for dir_ in directories: shutil.rmtree(dir_) undefine(vm_) return True def virt_type(): ''' Returns the virtual machine type as a string CLI Example: .. code-block:: bash salt '*' virtng.virt_type ''' return __grains__['virtual'] def is_kvm_hyper(): ''' Returns a bool whether or not this node is a KVM hypervisor CLI Example: .. code-block:: bash salt '*' virtng.is_kvm_hyper ''' try: if 'kvm_' not in salt.utils.fopen('/proc/modules').read(): return False except IOError: # No /proc/modules? Are we on Windows? Or Solaris? return False return 'libvirtd' in __salt__['cmd.run'](__grains__['ps']) def is_xen_hyper(): ''' Returns a bool whether or not this node is a XEN hypervisor CLI Example: .. code-block:: bash salt '*' virtng.is_xen_hyper ''' try: if __grains__['virtual_subtype'] != 'Xen Dom0': return False except KeyError: # virtual_subtype isn't set everywhere. return False try: if 'xen_' not in salt.utils.fopen('/proc/modules').read(): return False except IOError: # No /proc/modules? Are we on Windows? Or Solaris? return False return 'libvirtd' in __salt__['cmd.run'](__grains__['ps']) def is_hyper(): ''' Returns a bool whether or not this node is a hypervisor of any kind CLI Example: .. code-block:: bash salt '*' virtng.is_hyper ''' try: import libvirt # pylint: disable=import-error except ImportError: # not a usable hypervisor without libvirt module return False return is_xen_hyper() or is_kvm_hyper() def vm_cputime(vm_=None): ''' Return cputime used by the vms on this hyper in a list of dicts: .. code-block:: python [ 'your-vm': { 'cputime' 'cputime_percent' }, ... ] If you pass a VM name in as an argument then it will return info for just the named VM, otherwise it will return all VMs. CLI Example: .. code-block:: bash salt '*' virtng.vm_cputime ''' host_cpus = __get_conn().getInfo()[2] def _info(vm_): dom = _get_dom(vm_) raw = dom.info() vcpus = int(raw[3]) cputime = int(raw[4]) cputime_percent = 0 if cputime: # Divide by vcpus to always return a number between 0 and 100 cputime_percent = (1.0e-7 * cputime / host_cpus) / vcpus return { 'cputime': int(raw[4]), 'cputime_percent': int('{0:.0f}'.format(cputime_percent)) } info = {} if vm_: info[vm_] = _info(vm_) else: for vm_ in list_vms(): info[vm_] = _info(vm_) return info def vm_netstats(vm_=None): ''' Return combined network counters used by the vms on this hyper in a list of dicts: .. code-block:: python [ 'your-vm': { 'rx_bytes' : 0, 'rx_packets' : 0, 'rx_errs' : 0, 'rx_drop' : 0, 'tx_bytes' : 0, 'tx_packets' : 0, 'tx_errs' : 0, 'tx_drop' : 0 }, ... ] If you pass a VM name in as an argument then it will return info for just the named VM, otherwise it will return all VMs. CLI Example: .. code-block:: bash salt '*' virtng.vm_netstats ''' def _info(vm_): dom = _get_dom(vm_) nics = get_nics(vm_) ret = { 'rx_bytes': 0, 'rx_packets': 0, 'rx_errs': 0, 'rx_drop': 0, 'tx_bytes': 0, 'tx_packets': 0, 'tx_errs': 0, 'tx_drop': 0 } for attrs in six.itervalues(nics): if 'target' in attrs: dev = attrs['target'] stats = dom.interfaceStats(dev) ret['rx_bytes'] += stats[0] ret['rx_packets'] += stats[1] ret['rx_errs'] += stats[2] ret['rx_drop'] += stats[3] ret['tx_bytes'] += stats[4] ret['tx_packets'] += stats[5] ret['tx_errs'] += stats[6] ret['tx_drop'] += stats[7] return ret info = {} if vm_: info[vm_] = _info(vm_) else: for vm_ in list_vms(): info[vm_] = _info(vm_) return info def vm_diskstats(vm_=None): ''' Return disk usage counters used by the vms on this hyper in a list of dicts: .. code-block:: python [ 'your-vm': { 'rd_req' : 0, 'rd_bytes' : 0, 'wr_req' : 0, 'wr_bytes' : 0, 'errs' : 0 }, ... ] If you pass a VM name in as an argument then it will return info for just the named VM, otherwise it will return all VMs. CLI Example: .. code-block:: bash salt '*' virtng.vm_blockstats ''' def get_disk_devs(vm_): doc = minidom.parse(_StringIO(get_xml(vm_))) disks = [] for elem in doc.getElementsByTagName('disk'): targets = elem.getElementsByTagName('target') target = targets[0] disks.append(target.getAttribute('dev')) return disks def _info(vm_): dom = _get_dom(vm_) # Do not use get_disks, since it uses qemu-img and is very slow # and unsuitable for any sort of real time statistics disks = get_disk_devs(vm_) ret = {'rd_req': 0, 'rd_bytes': 0, 'wr_req': 0, 'wr_bytes': 0, 'errs': 0 } for disk in disks: stats = dom.blockStats(disk) ret['rd_req'] += stats[0] ret['rd_bytes'] += stats[1] ret['wr_req'] += stats[2] ret['wr_bytes'] += stats[3] ret['errs'] += stats[4] return ret info = {} if vm_: info[vm_] = _info(vm_) else: # Can not run function blockStats on inactive VMs for vm_ in list_active_vms(): info[vm_] = _info(vm_) return info