import libvirt import threading import socket import re from vrtManager import util from vrtManager.rwlock import ReadWriteLock from django.conf import settings from libvirt import libvirtError CONN_SOCKET = 4 CONN_TLS = 3 CONN_SSH = 2 CONN_TCP = 1 TLS_PORT = 16514 SSH_PORT = 22 TCP_PORT = 16509 class wvmEventLoop(threading.Thread): def __init__(self, group=None, target=None, name=None, args=(), kwargs={}): # register the default event implementation # of libvirt, as we do not have an existing # event loop. libvirt.virEventRegisterDefaultImpl() if name is None: name = 'libvirt event loop' super(wvmEventLoop, self).__init__(group, target, name, args, kwargs) # we run this thread in deamon mode, so it does # not block shutdown of the server self.daemon = True def run(self): while True: # if this method will fail it raises libvirtError # we do not catch the exception here so it will show up # in the logs. Not sure when this call will ever fail libvirt.virEventRunDefaultImpl() class wvmConnection(object): """ class representing a single connection stored in the Connection Manager # to-do: may also need some locking to ensure to not connect simultaniously in 2 threads """ def __init__(self, host, login, passwd, conn): """ Sets all class attributes and tries to open the connection """ # connection lock is used to lock all changes to the connection state attributes # (connection and last_error) self.connection_state_lock = threading.Lock() self.connection = None self.last_error = None # credentials self.host = host self.login = login self.passwd = passwd self.type = conn # connect self.connect() def connect(self): self.connection_state_lock.acquire() try: # recheck if we have a connection (it may have been if not self.connected: if self.type == CONN_TCP: self.__connect_tcp() elif self.type == CONN_SSH: self.__connect_ssh() elif self.type == CONN_TLS: self.__connect_tls() elif self.type == CONN_SOCKET: self.__connect_socket() else: raise ValueError('"{type}" is not a valid connection type'.format(type=self.type)) if self.connected: # do some preprocessing of the connection: # * set keep alive interval # * set connection close/fail handler try: self.connection.setKeepAlive(connection_manager.keepalive_interval, connection_manager.keepalive_count) try: self.connection.registerCloseCallback(self.__connection_close_callback, None) except: # Temporary fix for libvirt > libvirt-0.10.2-41 pass except libvirtError as e: # hypervisor driver does not seem to support persistent connections self.last_error = str(e) finally: self.connection_state_lock.release() @property def connected(self): try: return self.connection is not None and self.connection.isAlive() except libvirtError: # isAlive failed for some reason return False def __libvirt_auth_credentials_callback(self, credentials, user_data): for credential in credentials: if credential[0] == libvirt.VIR_CRED_AUTHNAME: credential[4] = self.login if len(credential[4]) == 0: credential[4] = credential[3] elif credential[0] == libvirt.VIR_CRED_PASSPHRASE: credential[4] = self.passwd else: return -1 return 0 def __connection_close_callback(self, connection, reason, opaque=None): self.connection_state_lock.acquire() try: # on server shutdown libvirt module gets freed before the close callbacks are called # so we just check here if it is still present if libvirt is not None: self.last_error = reason # prevent other threads from using the connection (in the future) self.connection = None finally: self.connection_state_lock.release() def __connect_tcp(self): flags = [libvirt.VIR_CRED_AUTHNAME, libvirt.VIR_CRED_PASSPHRASE] auth = [flags, self.__libvirt_auth_credentials_callback, None] uri = 'qemu+tcp://%s/system' % self.host try: self.connection = libvirt.openAuth(uri, auth, 0) self.last_error = None except libvirtError as e: self.last_error = 'Connection Failed: ' + str(e) self.connection = None def __connect_ssh(self): uri = 'qemu+ssh://%s@%s/system' % (self.login, self.host) try: self.connection = libvirt.open(uri) self.last_error = None except libvirtError as e: self.last_error = 'Connection Failed: ' + str(e) + ' --- ' + repr(libvirt.virGetLastError()) self.connection = None def __connect_tls(self): flags = [libvirt.VIR_CRED_AUTHNAME, libvirt.VIR_CRED_PASSPHRASE] auth = [flags, self.__libvirt_auth_credentials_callback, None] uri = 'qemu+tls://%s@%s/system' % (self.login, self.host) try: self.connection = libvirt.openAuth(uri, auth, 0) self.last_error = None except libvirtError as e: self.last_error = 'Connection Failed: ' + str(e) self.connection = None def __connect_socket(self): uri = 'qemu:///system' try: self.connection = libvirt.open(uri) self.last_error = None except libvirtError as e: self.last_error = 'Connection Failed: ' + str(e) self.connection = None def close(self): """ closes the connection (if it is active) """ self.connection_state_lock.acquire() try: if self.connected: try: # to-do: handle errors? self.connection.close() except libvirtError: pass self.connection = None self.last_error = None finally: self.connection_state_lock.release() def __del__(self): if self.connection is not None: # unregister callback (as it is no longer valid if this instance gets deleted) try: self.connection.unregisterCloseCallback() except: pass def __unicode__(self): if self.type == CONN_TCP: type_str = u'tcp' elif self.type == CONN_SSH: type_str = u'ssh' elif self.type == CONN_TLS: type_str = u'tls' else: type_str = u'invalid_type' return u'qemu+{type}://{user}@{host}/system'.format(type=type_str, user=self.login, host=self.host) def __repr__(self): return ''.format(connection_str=unicode(self)) class wvmConnectionManager(object): def __init__(self, keepalive_interval=5, keepalive_count=5): self.keepalive_interval = keepalive_interval self.keepalive_count = keepalive_count # connection dict # maps hostnames to a list of connection objects for this hostname # atm it is possible to create more than one connection per hostname # with different logins or auth methods # connections are shared between all threads, see: # http://wiki.libvirt.org/page/FAQ#Is_libvirt_thread_safe.3F self._connections = dict() self._connections_lock = ReadWriteLock() # start event loop to handle keepalive requests and other events self._event_loop = wvmEventLoop() self._event_loop.start() def _search_connection(self, host, login, passwd, conn): """ search the connection dict for a connection with the given credentials if it does not exist return None """ self._connections_lock.acquireRead() try: if host in self._connections: connections = self._connections[host] for connection in connections: if connection.login == login and connection.passwd == passwd and connection.type == conn: return connection finally: self._connections_lock.release() return None def get_connection(self, host, login, passwd, conn): """ returns a connection object (as returned by the libvirt.open* methods) for the given host and credentials raises libvirtError if (re)connecting fails """ # force all string values to unicode host = unicode(host) login = unicode(login) passwd = unicode(passwd) if passwd is not None else None connection = self._search_connection(host, login, passwd, conn) if connection is None: self._connections_lock.acquireWrite() try: # we have to search for the connection again after acquiring the write lock # as the thread previously holding the write lock may have already added our connection connection = self._search_connection(host, login, passwd, conn) if connection is None: # create a new connection if a matching connection does not already exist connection = wvmConnection(host, login, passwd, conn) # add new connection to connection dict if host in self._connections: self._connections[host].append(connection) else: self._connections[host] = [connection] finally: self._connections_lock.release() elif not connection.connected: # try to (re-)connect if connection is closed connection.connect() if connection.connected: # return libvirt connection object return connection.connection else: # raise libvirt error raise libvirtError(connection.last_error) def host_is_up(self, conn_type, hostname): """ returns True if the given host is up and we are able to establish a connection using the given credentials. """ try: socket_host = socket.socket(socket.AF_INET, socket.SOCK_STREAM) socket_host.settimeout(1) if conn_type == CONN_SSH: if ':' in hostname: LIBVIRT_HOST, PORT = hostname.split(":") PORT = int(PORT) else: PORT = SSH_PORT LIBVIRT_HOST = hostname socket_host.connect((LIBVIRT_HOST, PORT)) if conn_type == CONN_TCP: socket_host.connect((hostname, TCP_PORT)) if conn_type == CONN_TLS: socket_host.connect((hostname, TLS_PORT)) socket_host.close() return True except Exception as err: return err connection_manager = wvmConnectionManager( settings.LIBVIRT_KEEPALIVE_INTERVAL if hasattr(settings, 'LIBVIRT_KEEPALIVE_INTERVAL') else 5, settings.LIBVIRT_KEEPALIVE_COUNT if hasattr(settings, 'LIBVIRT_KEEPALIVE_COUNT') else 5 ) class wvmConnect(object): def __init__(self, host, login, passwd, conn): self.login = login self.host = host self.passwd = passwd self.conn = conn # get connection from connection manager self.wvm = connection_manager.get_connection(host, login, passwd, conn) def is_qemu(self): return self.wvm.getURI().startswith("qemu") def get_cap_xml(self): """Return xml capabilities""" return self.wvm.getCapabilities() def get_dom_cap_xml(self, arch, machine): """ Return domain capabilities xml""" emulatorbin = self.get_emulator(arch) virttype = 'kvm' if 'kvm' in self.get_hypervisors_domain_types()[arch] else 'qemu' machine_types = self.get_machine_types(arch) if not machine or machine not in machine_types: machine = 'pc' if 'pc' in machine_types else machine_types[0] return self.wvm.getDomainCapabilities(emulatorbin, arch, machine, virttype) def get_capabilities(self, arch): """ Host Capabilities for specified architecture """ def guests(ctx): result = dict() for arch_el in ctx.xpath("/capabilities/guest/arch[@name='{}']".format(arch)): result["wordsize"] = arch_el.find("wordsize").text result["emulator"] = arch_el.find("emulator").text result["domain"] = [v for v in arch_el.xpath("domain/@type")] result["machines"] = [] for m in arch_el.xpath("machine"): result["machines"].append({"machine": m.text, "max_cpu": m.get("maxCpus"), "canonical": m.get("canonical")}) guest_el = arch_el.getparent() for f in guest_el.xpath("features"): result["features"] = [t.tag for t in f.getchildren()] result["os_type"] = guest_el.find("os_type").text return result return util.get_xml_path(self.get_cap_xml(), func=guests) def get_dom_capabilities(self, arch, machine): """Return domain capabilities""" result = dict() xml = self.get_dom_cap_xml(arch, machine) result["path"] = util.get_xml_path(xml,"/domainCapabilities/path") result["domain"] = util.get_xml_path(xml, "/domainCapabilities/domain") result["machine"] = util.get_xml_path(xml, "/domainCapabilities/machine") result["vcpu_max"] = util.get_xml_path(xml, "/domainCapabilities/vcpu/@max") result["iothreads_support"] = util.get_xml_path(xml, "/domainCapabilities/iothreads/@supported") result["os_support"] = util.get_xml_path(xml, "/domainCapabilities/os/@supported") result["loader_support"] = util.get_xml_path(xml, "/domainCapabilities/os/loader/@supported") if result["loader_support"] == 'yes': result["loaders"] = self.get_os_loaders(arch, machine) result["loader_enums"] = self.get_os_loader_enums(arch, machine) result["cpu_modes"] = self.get_cpu_modes(arch, machine) if "custom" in result["cpu_modes"]: # supported and unknown cpu models result["cpu_custom_models"] = self.get_cpu_custom_types(arch, machine) result["disk_support"] = util.get_xml_path(xml, "/domainCapabilities/devices/disk/@supported") if result["disk_support"] == 'yes': result["disk_devices"] = self.get_disk_device_types(arch, machine) result["disk_bus"] = self.get_disk_bus_types(arch, machine) result["graphics_support"] = util.get_xml_path(xml, "/domainCapabilities/devices/graphics/@supported") if result["graphics_support"] == 'yes': result["graphics_types"] = self.get_graphics_types(arch, machine) result["video_support"] = util.get_xml_path(xml, "/domainCapabilities/devices/video/@supported") if result["video_support"] == 'yes': result["video_types"] = self.get_video_models(arch, machine) result["hostdev_support"] = util.get_xml_path(xml, "/domainCapabilities/devices/hostdev/@supported") if result["hostdev_support"] == 'yes': result["hostdev_types"] = self.get_hostdev_modes(arch, machine) result["hostdev_startup_policies"] = self.get_hostdev_startup_policies(arch, machine) result["hostdev_subsys_types"] = self.get_hostdev_subsys_types(arch, machine) result["features_gic_support"] = util.get_xml_path(xml, "/domainCapabilities/features/gic/@supported") result["features_genid_support"] = util.get_xml_path(xml, "/domainCapabilities/features/genid/@supported") result["features_vmcoreinfo_support"] = util.get_xml_path(xml, "/domainCapabilities/features/vmcoreinfo/@supported") result["features_sev_support"] = util.get_xml_path(xml, "/domainCapabilities/features/sev/@supported") return result def get_version(self): ver = self.wvm.getVersion() major = ver / 1000000 ver = ver % 1000000 minor = ver / 1000 ver = ver % 1000 release = ver return "%s.%s.%s" % (major, minor, release) def get_lib_version(self): ver = self.wvm.getLibVersion() major = ver / 1000000 ver %= 1000000 minor = ver / 1000 ver %= 1000 release = ver return "%s.%s.%s" % (major,minor,release) def is_kvm_supported(self): """Return KVM capabilities.""" return util.is_kvm_available(self.get_cap_xml()) def get_storages(self, only_actives=False): storages = [] for pool in self.wvm.listStoragePools(): storages.append(pool) if not only_actives: for pool in self.wvm.listDefinedStoragePools(): storages.append(pool) return storages def get_networks(self): virtnet = [] for net in self.wvm.listNetworks(): virtnet.append(net) for net in self.wvm.listDefinedNetworks(): virtnet.append(net) return virtnet def get_ifaces(self): interface = [] for inface in self.wvm.listInterfaces(): interface.append(inface) for inface in self.wvm.listDefinedInterfaces(): interface.append(inface) return interface def get_nwfilters(self): nwfilters = [] for nwfilter in self.wvm.listNWFilters(): nwfilters.append(nwfilter) return nwfilters def get_cache_modes(self): """Get cache available modes""" return { 'default': 'Default', 'none': 'Disabled', 'writethrough': 'Write through', 'writeback': 'Write back', 'directsync': 'Direct sync', # since libvirt 0.9.5 'unsafe': 'Unsafe', # since libvirt 0.9.7 } def get_hypervisors_domain_types(self): """Return hypervisor type""" def hypervisors(ctx): result = {} for arch in ctx.xpath('/capabilities/guest/arch'): domain_types = arch.xpath('domain/@type') arch_name = arch.xpath('@name')[0] result[arch_name] = domain_types return result return util.get_xml_path(self.get_cap_xml(), func=hypervisors) def get_hypervisors_machines(self): """Return hypervisor and its machine types""" def machines(ctx): result = dict() for arche in ctx.xpath('/capabilities/guest/arch'): arch = arche.get("name") result[arch] = self.get_machine_types(arch) return result return util.get_xml_path(self.get_cap_xml(), func=machines) def get_emulator(self, arch): """Return emulator """ return util.get_xml_path(self.get_cap_xml(), "/capabilities/guest/arch[@name='{}']/emulator".format(arch)) def get_machine_types(self, arch): """Return canonical(if exist) name of machine types """ def machines(ctx): result = list() canonical_name = ctx.xpath("/capabilities/guest/arch[@name='{}']/machine[@canonical]".format(arch)) if not canonical_name: canonical_name = ctx.xpath("/capabilities/guest/arch[@name='{}']/machine".format(arch)) for archi in canonical_name: result.append(archi.text) return result return util.get_xml_path(self.get_cap_xml(), func=machines) def get_emulators(self): def emulators(ctx): result = {} for arch in ctx.xpath('/capabilities/guest/arch'): emulator = arch.xpath('emulator') arch_name = arch.xpath('@name')[0] result[arch_name] = emulator return result return util.get_xml_path(self.get_cap_xml(), func=emulators) def get_os_loaders(self, arch='x86_64', machine='pc'): """Get available os loaders list""" def get_os_loaders(ctx): return [v.text for v in ctx.xpath("/domainCapabilities/os/loader[@supported='yes']/value")] return util.get_xml_path(self.get_dom_cap_xml(arch, machine), func=get_os_loaders) def get_os_loader_enums(self, arch, machine): """Get available os loaders list""" def get_os_loader_enums(ctx): result = dict() enums = [v for v in ctx.xpath("/domainCapabilities/os/loader[@supported='yes']/enum/@name")] for enum in enums: path = "/domainCapabilities/os/loader[@supported='yes']/enum[@name='{}']/value".format(enum) result[enum] = [v.text for v in ctx.xpath(path)] return result return util.get_xml_path(self.get_dom_cap_xml(arch, machine), func=get_os_loader_enums) def get_disk_bus_types(self, arch, machine): """Get available disk bus types list""" def get_bus_list(ctx): return [v.text for v in ctx.xpath("/domainCapabilities/devices/disk/enum[@name='bus']/value")] # return [ 'ide', 'scsi', 'usb', 'virtio' ] return util.get_xml_path(self.get_dom_cap_xml(arch, machine), func=get_bus_list) def get_disk_device_types(self, arch, machine): """Get available disk device type list""" def get_device_list(ctx): return [v.text for v in ctx.xpath("/domainCapabilities/devices/disk/enum[@name='diskDevice']/value")] # return [ 'disk', 'cdrom', 'floppy', 'lun' ] return util.get_xml_path(self.get_dom_cap_xml(arch, machine), func=get_device_list) def get_graphics_types(self, arch, machine): """Get available graphics types """ def get_graphics_list(ctx): return [ v.text for v in ctx.xpath("/domainCapabilities/devices/graphics/enum[@name='type']/value")] return util.get_xml_path(self.get_dom_cap_xml(arch, machine), func=get_graphics_list) def get_cpu_modes(self, arch, machine): """Get available cpu modes """ def get_cpu_modes(ctx): return [v for v in ctx.xpath("/domainCapabilities/cpu/mode[@supported='yes']/@name")] return util.get_xml_path(self.get_dom_cap_xml(arch, machine), func=get_cpu_modes) def get_cpu_custom_types(self, arch, machine): """Get available graphics types """ def get_custom_list(ctx): usable_yes = "/domainCapabilities/cpu/mode[@name='custom'][@supported='yes']/model[@usable='yes']" usable_unknown = "/domainCapabilities/cpu/mode[@name='custom'][@supported='yes']/model[@usable='unknown']" result = [v.text for v in ctx.xpath(usable_yes)] result += [v.text for v in ctx.xpath(usable_unknown)] return result return util.get_xml_path(self.get_dom_cap_xml(arch, machine), func=get_custom_list) def get_hostdev_modes(self, arch, machine): """Get available nodedev modes """ def get_hostdev_list(ctx): return [v.text for v in ctx.xpath("/domainCapabilities/devices/hostdev/enum[@name='mode']/value")] return util.get_xml_path(self.get_dom_cap_xml(arch, machine), func=get_hostdev_list) def get_hostdev_startup_policies(self, arch, machine): """Get available hostdev modes """ def get_hostdev_list(ctx): return [v.text for v in ctx.xpath("/domainCapabilities/devices/hostdev/enum[@name='startupPolicy']/value")] return util.get_xml_path(self.get_dom_cap_xml(arch, machine), func=get_hostdev_list) def get_hostdev_subsys_types(self, arch, machine): """Get available nodedev sub system types """ def get_hostdev_list(ctx): return [v.text for v in ctx.xpath("/domainCapabilities/devices/hostdev/enum[@name='subsysType']/value")] return util.get_xml_path(self.get_dom_cap_xml(arch, machine), func=get_hostdev_list) def get_image_formats(self): """Get available image formats""" return ['raw', 'qcow', 'qcow2'] def get_file_extensions(self): """Get available image filename extensions""" return ['img', 'qcow', 'qcow2'] def get_video_models(self, arch, machine): """ Get available graphics video types """ def get_video_list(ctx): result = [] for video_enum in ctx.xpath('/domainCapabilities/devices/video/enum'): if video_enum.xpath("@name")[0] == "modelType": for values in video_enum: result.append(values.text) return result return util.get_xml_path(self.get_dom_cap_xml(arch, machine), func=get_video_list) def get_iface(self, name): return self.wvm.interfaceLookupByName(name) def get_secrets(self): return self.wvm.listSecrets() def get_secret(self, uuid): return self.wvm.secretLookupByUUIDString(uuid) def get_storage(self, name): return self.wvm.storagePoolLookupByName(name) def get_volume_by_path(self, path): return self.wvm.storageVolLookupByPath(path) def get_network(self, net): return self.wvm.networkLookupByName(net) def get_network_forward(self, net_name): def get_forward(doc): forward_mode = util.get_xpath(doc, '/network/forward/@mode') return forward_mode or 'isolated' net = self.get_network(net_name) xml = net.XMLDesc(0) return util.get_xml_path(xml, func=get_forward) def get_nwfilter(self, name): return self.wvm.nwfilterLookupByName(name) def get_instance(self, name): return self.wvm.lookupByName(name) def get_instances(self): instances = [] for inst_id in self.wvm.listDomainsID(): dom = self.wvm.lookupByID(int(inst_id)) instances.append(dom.name()) for name in self.wvm.listDefinedDomains(): instances.append(name) return instances def get_snapshots(self): instance = [] for snap_id in self.wvm.listDomainsID(): dom = self.wvm.lookupByID(int(snap_id)) if dom.snapshotNum(0) != 0: instance.append(dom.name()) for name in self.wvm.listDefinedDomains(): dom = self.wvm.lookupByName(name) if dom.snapshotNum(0) != 0: instance.append(dom.name()) return instance def get_net_devices(self): netdevice = [] def get_info(doc): dev_type = util.get_xpath(doc, '/device/capability/@type') interface = util.get_xpath(doc, '/device/capability/interface') return dev_type, interface for dev in self.wvm.listAllDevices(0): xml = dev.XMLDesc(0) (dev_type, interface) = util.get_xml_path(xml, func=get_info) if dev_type == 'net': netdevice.append(interface) return netdevice def get_host_instances(self, raw_mem_size=False): vname = {} def get_info(doc): mem = util.get_xpath(doc, "/domain/currentMemory") mem = int(mem) / 1024 if raw_mem_size: mem = int(mem) * (1024*1024) cur_vcpu = util.get_xpath(doc, "/domain/vcpu/@current") if cur_vcpu: vcpu = cur_vcpu else: vcpu = util.get_xpath(doc, "/domain/vcpu") title = util.get_xpath(doc, "/domain/title") title = title if title else '' description = util.get_xpath(doc, "/domain/description") description = description if description else '' return mem, vcpu, title, description for name in self.get_instances(): dom = self.get_instance(name) xml = dom.XMLDesc(0) (mem, vcpu, title, description) = util.get_xml_path(xml, func=get_info) vname[dom.name()] = { 'status': dom.info()[0], 'uuid': dom.UUIDString(), 'vcpu': vcpu, 'memory': mem, 'title': title, 'description': description, } return vname def get_user_instances(self, name): dom = self.get_instance(name) xml = dom.XMLDesc(0) def get_info(ctx): mem = util.get_xpath(ctx, "/domain/currentMemory") mem = int(mem) / 1024 cur_vcpu = util.get_xpath(ctx, "/domain/vcpu/@current") if cur_vcpu: vcpu = cur_vcpu else: vcpu = util.get_xpath(ctx, "/domain/vcpu") title = util.get_xpath(ctx, "/domain/title") title = title if title else '' description = util.get_xpath(ctx, "/domain/description") description = description if description else '' return mem, vcpu, title, description (mem, vcpu, title, description) = util.get_xml_path(xml, func=get_info) return { 'name': dom.name(), 'status': dom.info()[0], 'uuid': dom.UUIDString(), 'vcpu': vcpu, 'memory': mem, 'title': title, 'description': description, } def close(self): """Close connection""" # to-do: do not close connection ;) # self.wvm.close() pass def find_uefi_path_for_arch(self, arch, machine): """ Search the loader paths for one that matches the passed arch """ if not self.arch_can_uefi(arch): return loaders = self.get_os_loaders(arch, machine) patterns = util.uefi_arch_patterns.get(arch) for pattern in patterns: for path in loaders: if re.match(pattern, path): return path def label_for_firmware_path(self, arch, path): """ Return a pretty label for passed path, based on if we know about it or not """ if not path: if arch in ["i686", "x86_64"]: return "BIOS" return for arch, patterns in util.uefi_arch_patterns.items(): for pattern in patterns: if re.match(pattern, path): return ("UEFI %(arch)s: %(path)s" % {"arch": arch, "path": path}) return "Custom: %(path)s" % {"path": path} def arch_can_uefi(self, arch): """ Return True if we know how to setup UEFI for the passed arch """ return arch in list(util.uefi_arch_patterns.keys()) def supports_uefi_xml(self, loader_enums): """ Return True if libvirt advertises support for proper UEFI setup """ return ("readonly" in loader_enums and "yes" in loader_enums.get("readonly")) def is_supports_virtio(self, arch, machine): if not self.is_qemu(): return False # These _only_ support virtio so don't check the OS if arch in ["aarch64", "armv7l", "ppc64", "ppc64le", "s390x", "riscv64", "riscv32"] and \ machine in ["virt", "pseries"]: return True if arch in ["x86_64", "i686"]: return True return False