virt-manager/virtinst/cli.py
Cole Robinson 16fecb482a cli: Add --memdev target.{current,block,requested}
Signed-off-by: Cole Robinson <crobinso@redhat.com>
2022-01-27 09:57:20 -05:00

4780 lines
165 KiB
Python

#
# Utility functions for the command line drivers
#
# Copyright 2006-2007, 2013, 2014 Red Hat, Inc.
#
# This work is licensed under the GNU GPLv2 or later.
# See the COPYING file in the top-level directory.
import argparse
import collections
import os
import re
import shlex
import shutil
import sys
import traceback
import types
import libvirt
from . import xmlutil
from .buildconfig import BuildConfig
from .connection import VirtinstConnection
from .devices import (Device, DeviceController, DeviceDisk, DeviceGraphics,
DeviceHostdev, DeviceInterface, DevicePanic)
from .guest import Guest
from .logger import log, reset_logging
from .nodedev import NodeDevice
from .osdict import OSDB
from .storage import StoragePool, StorageVolume
from .install.unattended import UnattendedData
from .install.cloudinit import CloudInitData
HAS_VIRTVIEWER = shutil.which("virt-viewer")
##########################
# Global option handling #
##########################
class _GlobalState(object):
def __init__(self):
self.quiet = False
self.all_checks = None
self._validation_checks = {}
def set_validation_check(self, checkname, val):
self._validation_checks[checkname] = val
def get_validation_check(self, checkname):
if self.all_checks is not None:
return self.all_checks
# Default to True for all checks
return self._validation_checks.get(checkname, True)
_globalstate = None
def get_global_state():
return _globalstate
def _reset_global_state():
global _globalstate
_globalstate = _GlobalState()
VIRT_PARSERS = []
####################
# CLI init helpers #
####################
class VirtHelpFormatter(argparse.RawDescriptionHelpFormatter):
'''
Subclass the default help formatter to allow printing newline characters
in --help output. The way we do this is a huge hack :(
Inspiration: http://groups.google.com/group/comp.lang.python/browse_thread/thread/6df6e6b541a15bc2/09f28e26af0699b1
'''
oldwrap = None
# pylint: disable=arguments-differ
def _split_lines(self, *args, **kwargs):
def return_default():
return argparse.RawDescriptionHelpFormatter._split_lines(
self, *args, **kwargs)
if len(kwargs) != 0 and len(args) != 2:
return return_default() # pragma: no cover
try:
text = args[0]
if "\n" in text:
return text.splitlines()
return return_default()
except Exception: # pragma: no cover
return return_default()
def setupParser(usage, description, introspection_epilog=False):
epilog = _("See man page for examples and full option syntax.")
if introspection_epilog:
epilog = _("Use '--option=?' or '--option help' to see "
"available suboptions") + "\n" + epilog
parser = argparse.ArgumentParser(
usage=usage, description=description,
formatter_class=VirtHelpFormatter,
epilog=epilog)
parser.add_argument('--version', action='version',
version=BuildConfig.version)
return parser
def earlyLogging():
reset_logging()
import logging
logging.basicConfig(level=logging.DEBUG, format='%(message)s')
def setupLogging(appname, debug_stdout, do_quiet, cli_app=True):
_reset_global_state()
get_global_state().quiet = do_quiet
vi_dir = VirtinstConnection.get_app_cache_dir()
logfile = os.path.join(vi_dir, appname + ".log")
if xmlutil.in_testsuite():
vi_dir = None
logfile = None
try: # pragma: no cover
if vi_dir and not os.access(vi_dir, os.W_OK):
if os.path.exists(vi_dir):
raise RuntimeError("No write access to directory %s" % vi_dir)
try:
os.makedirs(vi_dir, 0o751)
except IOError as e:
raise RuntimeError("Could not create directory %s: %s" %
(vi_dir, e)) from None
if (logfile and
os.path.exists(logfile) and
not os.access(logfile, os.W_OK)):
raise RuntimeError("No write access to logfile %s" % logfile)
except Exception as e: # pragma: no cover
log.warning("Error setting up logfile: %s", e)
logfile = None
dateFormat = "%a, %d %b %Y %H:%M:%S"
fileFormat = ("[%(asctime)s " + appname + " %(process)d] "
"%(levelname)s (%(module)s:%(lineno)d) %(message)s")
streamErrorFormat = "%(levelname)-8s %(message)s"
import logging
import logging.handlers
reset_logging()
log.setLevel(logging.DEBUG)
if logfile:
fileHandler = logging.handlers.RotatingFileHandler(
logfile, "ae", 1024 * 1024, 5)
fileHandler.setFormatter(
logging.Formatter(fileFormat, dateFormat))
log.addHandler(fileHandler)
streamHandler = logging.StreamHandler(sys.stderr)
if debug_stdout:
streamHandler.setLevel(logging.DEBUG)
streamHandler.setFormatter(logging.Formatter(fileFormat,
dateFormat))
elif cli_app or not logfile:
# Have cli tools show WARN/ERROR by default
if get_global_state().quiet:
level = logging.ERROR
else:
level = logging.WARN
streamHandler.setLevel(level)
streamHandler.setFormatter(logging.Formatter(streamErrorFormat))
else: # pragma: no cover
streamHandler = None
if streamHandler:
log.addHandler(streamHandler)
# Log uncaught exceptions
def exception_log(typ, val, tb): # pragma: no cover
log.debug("Uncaught exception:\n%s",
"".join(traceback.format_exception(typ, val, tb)))
if not debug_stdout:
# If we are already logging to stdout, don't double print
# the backtrace
sys.__excepthook__(typ, val, tb)
sys.excepthook = exception_log
# Log the app command string
log.debug("Launched with command line: %s", " ".join(sys.argv))
##############################
# Libvirt connection helpers #
##############################
def getConnection(uri, conn=None):
if conn:
# preopened connection passed in via test suite
return conn
log.debug("Requesting libvirt URI %s", (uri or "default"))
conn = VirtinstConnection(uri)
conn.open(_openauth_cb, None)
log.debug("Received libvirt URI %s", conn.uri)
return conn
def _openauth_cb(creds, _cbdata): # pragma: no cover
for cred in creds:
# Libvirt virConnectCredential
credtype, prompt, _challenge, _defresult, _result = cred
noecho = credtype in [
libvirt.VIR_CRED_PASSPHRASE, libvirt.VIR_CRED_NOECHOPROMPT]
if not prompt:
log.error("No prompt for auth credtype=%s", credtype)
return -1
log.debug("openauth_cb prompt=%s", prompt)
prompt += ": "
if noecho:
import getpass
res = getpass.getpass(prompt)
else:
res = input(prompt)
# Overwriting 'result' is how we return values to libvirt
cred[-1] = res
return 0
##############################
# Misc CLI utility functions #
##############################
def fail(msg, do_exit=True):
"""
Convenience function when failing in cli app
"""
log.debug("".join(traceback.format_stack()))
log.error(msg)
if sys.exc_info()[0] is not None:
log.debug("", exc_info=True)
if do_exit:
_fail_exit()
def print_stdout(msg, do_force=False, do_log=True):
if do_log:
log.debug(msg)
if do_force or not get_global_state().quiet or not do_log:
print(msg)
def print_stderr(msg):
log.debug(msg)
print(msg, file=sys.stderr)
def _fail_exit():
sys.exit(1)
def virsh_start_cmd(guest):
return ("virsh --connect %s start %s" % (guest.conn.uri, guest.name))
def install_fail(guest):
virshcmd = virsh_start_cmd(guest)
print_stderr(
_("Domain installation does not appear to have been successful.\n"
"If it was, you can restart your domain by running:\n"
" %s\n"
"otherwise, please restart your installation.") % virshcmd)
sys.exit(1)
def set_prompt(prompt):
# Set whether we allow prompts, or fail if a prompt pops up
if prompt:
log.warning("--prompt mode is no longer supported.")
def check_path_search(conn, path):
searchdata = DeviceDisk.check_path_search(conn, path)
if not searchdata.fixlist:
return
msg = ( # pragma: no cover
_("%(path)s may not be accessible by the hypervisor. "
"You will need to grant the '%(user)s' user search permissions for "
"the following directories: %(dirs)s") %
{"path": path, "user": searchdata.user, "dirs": searchdata.fixlist})
log.warning(msg) # pragma: no cover
def _optional_fail(msg, checkname, warn_on_skip=True):
"""
Handle printing a message with an associated --check option
"""
do_check = get_global_state().get_validation_check(checkname)
if do_check:
fail(msg + (_(" (Use --check %s=off or "
"--check all=off to override)") % checkname))
log.debug("Skipping --check %s error condition '%s'",
checkname, msg)
if warn_on_skip:
log.warning(msg)
def validate_mac(conn, macaddr):
"""
There's legitimate use cases for creating/cloning VMs with duplicate
MACs, so we do the collision check here but allow it to be skipped
with --check
"""
try:
DeviceInterface.check_mac_in_use(conn, macaddr)
return
except Exception as e:
_optional_fail(str(e), "mac_in_use")
def validate_disk(dev, warn_overwrite=False):
path = dev.get_source_path()
def check_path_exists():
"""
Prompt if disk file already exists and preserve mode is not used
"""
if not warn_overwrite:
return
if not DeviceDisk.path_definitely_exists(dev.conn, path):
return
_optional_fail(
_("This will overwrite the existing path '%s'") % path,
"path_exists")
def check_inuse_conflict():
"""
Check if disk is inuse by another guest
"""
names = dev.is_conflict_disk()
if not names:
return
msg = (_("Disk %(path)s is already in use by other guests %(names)s.") %
{"path": path, "names": names})
_optional_fail(msg, "path_in_use")
def check_size_conflict():
"""
Check if specified size exceeds available storage
"""
isfatal, errmsg = dev.is_size_conflict()
# The isfatal case should have already caused us to fail
if not isfatal and errmsg:
_optional_fail(errmsg, "disk_size", warn_on_skip=False)
check_path_exists()
check_inuse_conflict()
check_size_conflict()
check_path_search(dev.conn, path)
def _run_console(message, args):
log.debug("Running: %s", " ".join(args))
argstr = " ".join([shlex.quote(a) for a in args])
print_stdout(message % {"command": argstr})
if xmlutil.in_testsuite():
args = ["/bin/test"]
child = os.fork()
if child:
return child
# pylint: disable=protected-access
try: # pragma: no cover
os.execvp(args[0], args)
except Exception as e: # pragma: no cover
print("Error launching %s: %s" % (args, e))
finally:
os._exit(1) # pragma: no cover
def _gfx_console(guest):
args = ["virt-viewer",
"--connect", guest.conn.uri,
"--wait", guest.name]
message = _("Running graphical console command: %(command)s")
# Currently virt-viewer needs attaching to the local display while
# spice gl is enabled or listen type none is used.
if guest.has_gl() or guest.has_listen_none():
args.append("--attach")
return _run_console(message, args)
def _txt_console(guest):
args = ["virsh",
"--connect", guest.conn.uri,
"console", guest.name]
message = _("Running text console command: %(command)s")
return _run_console(message, args)
def get_meter():
import virtinst.progress
quiet = (get_global_state().quiet or xmlutil.in_testsuite())
return virtinst.progress.make_meter(quiet=quiet)
def get_xmldesc(domain, inactive=False):
flags = libvirt.VIR_DOMAIN_XML_SECURE
if inactive:
flags |= libvirt.VIR_DOMAIN_XML_INACTIVE
return domain.XMLDesc(flags)
def get_domain_and_guest(conn, domstr):
try:
int(domstr)
isint = True
except ValueError:
isint = False
uuidre = "[a-fA-F0-9]{8}[-]([a-fA-F0-9]{4}[-]){3}[a-fA-F0-9]{12}$"
isuuid = bool(re.match(uuidre, domstr))
try:
domain = None
try:
domain = conn.lookupByName(domstr)
except Exception:
# In case the VM has a UUID or ID for a name
log.debug("Error looking up domain by name", exc_info=True)
if isint:
domain = conn.lookupByID(int(domstr))
elif isuuid:
domain = conn.lookupByUUIDString(domstr)
else:
raise
except libvirt.libvirtError as e:
fail(_("Could not find domain '%(domain)s': %(error)s") % {
"domain": domstr,
"error": str(e),
})
state = domain.info()[0]
active_xmlobj = None
inactive_xmlobj = Guest(conn, parsexml=get_xmldesc(domain))
if state != libvirt.VIR_DOMAIN_SHUTOFF:
active_xmlobj = inactive_xmlobj
inactive_xmlobj = Guest(conn,
parsexml=get_xmldesc(domain, inactive=True))
return (domain, inactive_xmlobj, active_xmlobj)
def fail_conflicting(option1, option2):
# translators: option1 and option2 are command line options,
# e.g. -a or --disk
msg = _("Cannot use %(option1)s and %(option2)s at the same time") % {
"option1": option1,
"option2": option2,
}
fail(msg)
###########################
# bash completion helpers #
###########################
def _get_completer_parsers():
return VIRT_PARSERS + [ParserCheck, ParserLocation,
ParserUnattended, ParserInstall, ParserCloudInit, ParserXML,
ParserOSVariant]
def _virtparser_completer(prefix, **kwargs):
sub_options = []
for parserclass in _get_completer_parsers():
if kwargs['action'].dest == parserclass.cli_arg_name:
# pylint: disable=protected-access
for virtarg in sorted(parserclass._virtargs,
key=lambda p: p.nonregex_cliname()):
sub_options.append(virtarg.nonregex_cliname() + "=")
entered_options = prefix.split(",")
for option in entered_options:
pos = option.find("=")
if pos > 0 and option[: pos + 1] in sub_options:
sub_options.remove(option[: pos + 1])
return sub_options
def _completer_validator(suboption, current_input):
"""
:param suboption: The virtarg.cliname we are checking for a match
:param current_input: The user typed string we are checking against.
So if the user types '--disk path=foo,dev<TAB>',
current_input=='path=foo,dev'
For debugging here, 'export _ARC_DEBUG=1'. Now exceptions/printing
will be shown on stderr
"""
# e.g. for: --disk <TAB><TAB> (return all suboptions)
if current_input == "":
return True
# e.g. for: --disk path=foo,<TAB><TAB> (return all suboptions)
# or: --disk path=foo,de<TAB>TAB> (return all 'de*' options)
current_option = current_input.rsplit(",", 1)[-1]
return suboption.startswith(current_option)
def autocomplete(parser):
if "_ARGCOMPLETE" not in os.environ:
return
import argcomplete
import unittest.mock
parsernames = [pclass.cli_flag_name() for pclass in
_get_completer_parsers()]
# pylint: disable=protected-access
for action in parser._actions:
for opt in action.option_strings:
if opt in parsernames:
action.completer = _virtparser_completer
break
kwargs = {"validator": _completer_validator}
if xmlutil.in_testsuite():
import io
kwargs["output_stream"] = io.BytesIO()
kwargs["exit_method"] = sys.exit
# This fdopen hackery is to avoid argcomplete debug_stream behavior
# from taking over an fd that pytest wants to use
fake_fdopen = os.fdopen
if xmlutil.in_testsuite():
def fake_fdopen_cb(*args, **kwargs):
return sys.stderr
fake_fdopen = fake_fdopen_cb
with unittest.mock.patch.object(os, "fdopen", fake_fdopen):
try:
argcomplete.autocomplete(parser, **kwargs)
except SystemExit:
if xmlutil.in_testsuite():
output = kwargs["output_stream"].getvalue().decode("utf-8")
print(output)
raise
###########################
# Common CLI option/group #
###########################
def add_connect_option(parser, invoker=None):
if invoker == "virt-xml":
parser.add_argument("-c", "--connect", metavar="URI",
help=_("Connect to hypervisor with libvirt URI"))
else:
parser.add_argument("--connect", metavar="URI",
help=_("Connect to hypervisor with libvirt URI"))
def add_misc_options(grp, prompt=False, replace=False,
printxml=False, printstep=False,
noreboot=False, dryrun=False,
noautoconsole=False):
if prompt:
grp.add_argument("--prompt", action="store_true",
default=False, help=argparse.SUPPRESS)
grp.add_argument("--force", action="store_true",
default=False, help=argparse.SUPPRESS)
if noautoconsole:
grp.add_argument("--autoconsole", default="default",
help=_("Configure guest console auto connect. Example:\n"
"--autoconsole text\n"
"--autoconsole graphical\n"
"--autoconsole none"))
grp.add_argument("--noautoconsole", dest="autoconsole",
action="store_const", const="none",
help=_("Don't automatically try to connect to the guest console"))
if noreboot:
grp.add_argument("--noreboot", action="store_true",
help=_("Don't boot guest after completing install."))
if replace:
grp.add_argument("--replace", action="store_true",
help=_("Don't check name collision, overwrite any guest "
"with the same name."))
if printxml:
print_kwargs = {
"dest": "xmlonly",
"default": False,
"help": _("Print the generated domain XML rather than create "
"the guest."),
}
if printstep:
print_kwargs["nargs"] = "?"
print_kwargs["const"] = "all"
else:
print_kwargs["action"] = "store_true"
grp.add_argument("--print-xml", **print_kwargs)
if printstep:
# Back compat, argparse allows us to use --print-xml
# for everything.
grp.add_argument("--print-step", dest="xmlstep",
help=argparse.SUPPRESS)
if dryrun:
grp.add_argument("--dry-run", action="store_true", dest="dry",
help=_("Run through install process, but do not "
"create devices or define the guest."))
if prompt:
grp.add_argument("--check", action="append",
help=_("Enable or disable validation checks. Example:\n"
"--check path_in_use=off\n"
"--check all=off"))
grp.add_argument("-q", "--quiet", action="store_true",
help=_("Suppress non-error output"))
grp.add_argument("-d", "--debug", action="store_true",
help=_("Print debugging information"))
def add_metadata_option(grp):
ParserMetadata.register()
grp.add_argument("--metadata", action="append",
help=_("Configure guest metadata. Ex:\n"
"--metadata name=foo,title=\"My pretty title\",uuid=...\n"
"--metadata description=\"My nice long description\""))
def add_memory_option(grp, backcompat=False):
ParserMemory.register()
grp.add_argument("--memory", action="append",
help=_("Configure guest memory allocation. Ex:\n"
"--memory 1024 (in MiB)\n"
"--memory memory=1024,currentMemory=512\n"))
if backcompat:
grp.add_argument("-r", "--ram", type=int, dest="oldmemory",
help=argparse.SUPPRESS)
def vcpu_cli_options(grp, backcompat=True, editexample=False):
# The order of the parser registration is important here!
ParserCPU.register()
ParserVCPU.register()
grp.add_argument("--vcpus", action="append",
help=_("Number of vCPUs to configure for your guest. Ex:\n"
"--vcpus 5\n"
"--vcpus 5,maxvcpus=10,cpuset=1-4,6,8\n"
"--vcpus sockets=2,cores=4,threads=2"))
extramsg = "--cpu host"
if editexample:
extramsg = "--cpu host-model,clearxml=yes"
grp.add_argument("--cpu", action="append",
help=_("CPU model and features. Ex:\n"
"--cpu coreduo,+x2apic\n"
"--cpu host-passthrough\n") + extramsg)
if backcompat:
grp.add_argument("--check-cpu", action="store_true",
help=argparse.SUPPRESS)
grp.add_argument("--cpuset", help=argparse.SUPPRESS)
def add_gfx_option(devg):
ParserGraphics.register()
devg.add_argument("--graphics", action="append",
help=_("Configure guest display settings. Ex:\n"
"--graphics spice\n"
"--graphics vnc,port=5901,listen=0.0.0.0\n"
"--graphics none\n"))
def add_net_option(devg):
ParserNetwork.register()
devg.add_argument("-w", "--network", action="append",
help=_("Configure a guest network interface. Ex:\n"
"--network bridge=mybr0\n"
"--network network=my_libvirt_virtual_net\n"
"--network network=mynet,model=virtio,mac=00:11...\n"
"--network none\n"
"--network help"))
def add_device_options(devg, sound_back_compat=False):
ParserController.register()
devg.add_argument("--controller", action="append",
help=_("Configure a guest controller device. Ex:\n"
"--controller type=usb,model=qemu-xhci\n"
"--controller virtio-scsi\n"))
ParserInput.register()
devg.add_argument("--input", action="append",
help=_("Configure a guest input device. Ex:\n"
"--input tablet\n"
"--input keyboard,bus=usb"))
ParserSerial.register()
devg.add_argument("--serial", action="append",
help=_("Configure a guest serial device"))
ParserParallel.register()
devg.add_argument("--parallel", action="append",
help=_("Configure a guest parallel device"))
ParserChannel.register()
devg.add_argument("--channel", action="append",
help=_("Configure a guest communication channel"))
ParserConsole.register()
devg.add_argument("--console", action="append",
help=_("Configure a text console connection between "
"the guest and host"))
ParserHostdev.register()
devg.add_argument("--hostdev", action="append",
help=_("Configure physical USB/PCI/etc host devices "
"to be shared with the guest"))
# Back compat name
devg.add_argument("--host-device", action="append", dest="hostdev",
help=argparse.SUPPRESS)
ParserFilesystem.register()
devg.add_argument("--filesystem", action="append",
help=_("Pass host directory to the guest. Ex: \n"
"--filesystem /my/source/dir,/dir/in/guest\n"
"--filesystem template_name,/,type=template"))
ParserSound.register()
# --sound used to be a boolean option, hence the nargs handling
sound_kwargs = {
"action": "append",
"help": _("Configure guest sound device emulation"),
}
if sound_back_compat:
sound_kwargs["nargs"] = '?'
devg.add_argument("--sound", **sound_kwargs)
if sound_back_compat:
devg.add_argument("--soundhw", action="append", dest="sound",
help=argparse.SUPPRESS)
ParserWatchdog.register()
devg.add_argument("--watchdog", action="append",
help=_("Configure a guest watchdog device"))
ParserVideo.register()
devg.add_argument("--video", action="append",
help=_("Configure guest video hardware."))
ParserSmartcard.register()
devg.add_argument("--smartcard", action="append",
help=_("Configure a guest smartcard device. Ex:\n"
"--smartcard mode=passthrough"))
ParserRedir.register()
devg.add_argument("--redirdev", action="append",
help=_("Configure a guest redirection device. Ex:\n"
"--redirdev usb,type=tcp,server=192.168.1.1:4000"))
ParserMemballoon.register()
devg.add_argument("--memballoon", action="append",
help=_("Configure a guest memballoon device. Ex:\n"
"--memballoon model=virtio"))
ParserTPM.register()
devg.add_argument("--tpm", action="append",
help=_("Configure a guest TPM device. Ex:\n"
"--tpm /dev/tpm"))
ParserRNG.register()
devg.add_argument("--rng", action="append",
help=_("Configure a guest RNG device. Ex:\n"
"--rng /dev/urandom"))
ParserPanic.register()
devg.add_argument("--panic", action="append",
help=_("Configure a guest panic device. Ex:\n"
"--panic default"))
ParserShMem.register()
devg.add_argument("--shmem", action="append",
help=_("Configure a guest shared memory device. Ex:\n"
"--shmem name=shmem0"))
ParserMemdev.register()
devg.add_argument("--memdev", action="append",
help=_("Configure a guest memory device. Ex:\n"
"--memdev dimm,target.size=1024"))
ParserVsock.register()
devg.add_argument("--vsock", action="append",
help=_("Configure guest vsock sockets. Ex:\n"
"--vsock cid.auto=yes\n"
"--vsock cid.address=7"))
ParserIommu.register()
devg.add_argument("--iommu", action="append",
help=_("Configure an IOMMU device. Ex:\n"
"--iommu model=intel,driver.aw_bits=48"))
def add_guest_xml_options(geng):
ParserIOThreads.register()
geng.add_argument("--iothreads", action="append",
help=_("Set domain <iothreads> and <iothreadids> configuration."))
ParserSeclabel.register()
geng.add_argument("--seclabel", "--security", action="append",
help=_("Set domain seclabel configuration."))
ParserKeyWrap.register()
geng.add_argument("--keywrap", action="append",
help=_("Set guest to perform the S390 cryptographic "
"key management operations."))
ParserCputune.register()
geng.add_argument("--cputune", action="append",
help=_("Tune CPU parameters for the domain process."))
ParserNumatune.register()
geng.add_argument("--numatune", action="append",
help=_("Tune NUMA policy for the domain process."))
ParserMemtune.register()
geng.add_argument("--memtune", action="append",
help=_("Tune memory policy for the domain process."))
ParserBlkiotune.register()
geng.add_argument("--blkiotune", action="append",
help=_("Tune blkio policy for the domain process."))
ParserMemoryBacking.register()
geng.add_argument("--memorybacking", action="append",
help=_("Set memory backing policy for the domain process. Ex:\n"
"--memorybacking hugepages=on"))
ParserFeatures.register()
geng.add_argument("--features", action="append",
help=_("Set domain <features> XML. Ex:\n"
"--features acpi=off\n"
"--features apic=on,apic.eoi=on"))
ParserClock.register()
geng.add_argument("--clock", action="append",
help=_("Set domain <clock> XML. Ex:\n"
"--clock offset=localtime,rtc_tickpolicy=catchup"))
ParserPM.register()
geng.add_argument("--pm", action="append",
help=_("Configure VM power management features"))
ParserEvents.register()
geng.add_argument("--events", action="append",
help=_("Configure VM lifecycle management policy"))
ParserResource.register()
geng.add_argument("--resource", action="append",
help=_("Configure VM resource partitioning (cgroups)"))
ParserSysinfo.register()
geng.add_argument("--sysinfo", action="append",
help=_("Configure SMBIOS System Information. Ex:\n"
"--sysinfo host\n"
"--sysinfo bios.vendor=MyVendor,bios.version=1.2.3,...\n"))
ParserQemuCLI.register()
geng.add_argument("--qemu-commandline", action="append",
help=_("Pass arguments directly to the QEMU emulator. Ex:\n"
"--qemu-commandline='-display gtk,gl=on'\n"
"--qemu-commandline env=DISPLAY=:0.1"))
ParserLaunchSecurity.register()
geng.add_argument("--launchSecurity", "--launchsecurity", action="append",
help=_("Configure VM launch security (e.g. SEV memory encryption). Ex:\n"
"--launchSecurity type=sev,cbitpos=47,reducedPhysBits=1,policy=0x0001,dhCert=BASE64CERT\n"
"--launchSecurity sev"))
def add_boot_options(insg):
ParserBoot.register()
insg.add_argument("--boot", action="append",
help=_("Configure guest boot settings. Ex:\n"
"--boot hd,cdrom,menu=on\n"
"--boot init=/sbin/init (for containers)"))
ParserIdmap.register()
insg.add_argument("--idmap", action="append",
help=_("Enable user namespace for LXC container. Ex:\n"
"--idmap uid.start=0,uid.target=1000,uid.count=10"))
def add_disk_option(stog, editexample=False):
ParserDisk.register()
editmsg = ""
if editexample:
editmsg += "\n--disk cache= (unset cache)"
stog.add_argument("--disk", action="append",
help=_("Specify storage with various options. Ex.\n"
"--disk size=10 (new 10GiB image in default location)\n"
"--disk /my/existing/disk,cache=none\n"
"--disk device=cdrom,bus=scsi\n"
"--disk=?") + editmsg)
def add_os_variant_option(parser, virtinstall):
osg = parser.add_argument_group(_("OS options"))
if virtinstall:
msg = _("The OS being installed in the guest.")
else:
msg = _("The OS installed in the guest.")
msg += "\n"
msg += _("This is used for deciding optimal defaults like VirtIO.\n"
"Example values: fedora29, rhel7.0, win10, ...\n"
"See 'osinfo-query os' for a full list.")
osg.add_argument("--os-variant", "--osinfo", help=msg)
return osg
def add_xml_option(grp):
grp.add_argument("--xml", action="append", default=[],
help=_("Perform raw XML XPath options on the final XML. Example:\n"
"--xml ./cpu/@mode=host-passthrough\n"
"--xml ./devices/disk[2]/serial=new-serial\n"
"--xml xpath.delete=./clock"))
#############################################
# CLI complex parsing helpers #
# (for options like --disk, --network, etc. #
#############################################
def _raw_on_off_convert(s):
tvalues = ["y", "yes", "1", "true", "t", "on"]
fvalues = ["n", "no", "0", "false", "f", "off"]
s = (s or "").lower()
if s in tvalues:
return True
elif s in fvalues:
return False
return None
def _on_off_convert(key, val):
if val is None:
return None
val = _raw_on_off_convert(val)
if val is not None:
return val
fail(_("%(key)s must be 'yes' or 'no'") % {"key": key})
class _SuboptCheckerClass:
"""
Used by the test suite to ensure we actually test all cli suboptions
"""
def __init__(self):
self._all = set()
self._seen = set()
def add_all(self, name):
self._all.add(name)
def add_seen(self, name):
self._seen.add(name)
def get_unseen(self):
return self._all - self._seen
_SuboptChecker = _SuboptCheckerClass()
class _VirtCLIArgumentStatic(object):
"""
Helper class to hold all of the static data we need for knowing
how to parse a cli subargument, like --disk path=, or --network mac=.
@cliname: The command line option name, 'path' for path=FOO
@propname: The virtinst API attribute name the cliargument maps to.
@cb: Rather than set a virtinst object property directly, use
this callback instead. It should have the signature:
cb(parser, inst, val, virtarg)
@ignore_default: If the value passed on the cli is 'default', don't
do anything.
@can_comma: If True, this option is expected to have embedded commas.
After the parser sees this option, it will iterate over the
option string until it finds another known argument name:
everything prior to that argument name is considered part of
the value of this option, '=' included. Should be used sparingly.
@is_onoff: The value expected on the cli is on/off or yes/no, convert
it to true/false.
@lookup_cb: If specified, use this function for performing match
lookups.
@find_inst_cb: If specified, this can be used to return a different
'inst' to check and set attributes against. For example,
DeviceDisk has multiple seclabel children, this provides a hook
to lookup the specified child object.
"""
def __init__(self, cliname, propname, parent_cliname,
cb=None, can_comma=None,
ignore_default=False, is_onoff=False,
lookup_cb=-1, find_inst_cb=None):
self.cliname = cliname
self.propname = propname
self.cb = cb
self.can_comma = can_comma
self.ignore_default = ignore_default
self.is_onoff = is_onoff
self.lookup_cb = lookup_cb
self.find_inst_cb = find_inst_cb
self._parent_cliname = parent_cliname
self._aliases = []
if not self.propname and not self.cb:
raise xmlutil.DevError("propname or cb must be specified.")
if not self.propname and self.lookup_cb == -1:
raise xmlutil.DevError(
"cliname=%s propname is None but lookup_cb is not specified. "
"Even if a 'cb' is passed, 'propname' is still used for "
"device lookup for virt-xml --edit.\n\nIf cb is just "
"a converter function for a single propname, then set "
"both propname and cb. If this cliname is truly "
"not backed by a single propname, set lookup_cb=None or "
"better yet implement a lookup_cb. This message is here "
"to ensure propname isn't omitted without understanding "
"the distinction." % self.cliname)
if self.lookup_cb == -1:
self.lookup_cb = None
_SuboptChecker.add_all(self._testsuite_argcheck_name(self.cliname))
def _testsuite_argcheck_name(self, cliname):
if not self._parent_cliname:
return "sharedoption %s" % cliname
return "--%s %s" % (self._parent_cliname, cliname)
def set_aliases(self, aliases):
self._aliases = aliases
for alias in self._aliases:
_SuboptChecker.add_all(self._testsuite_argcheck_name(alias))
def nonregex_cliname(self):
return self.cliname.replace("[0-9]*", "")
def match_name(self, userstr):
"""
Return True if the passed user string matches this
VirtCLIArgument. So for an option like --foo bar=X, this
checks if we are the parser for 'bar'
"""
for cliname in [self.cliname] + xmlutil.listify(self._aliases):
if "[" in cliname:
ret = re.match("^%s$" % cliname.replace(".", r"\."), userstr)
else:
ret = (cliname == userstr)
if ret:
_SuboptChecker.add_seen(self._testsuite_argcheck_name(cliname))
return True
return False
class _VirtCLIArgument(object):
"""
A class that combines the static parsing data _VirtCLIArgumentStatic
with actual values passed on the command line.
"""
def __init__(self, virtarg, key, val):
"""
Instantiate a VirtCLIArgument with the actual key=val pair
from the command line.
"""
if val is None:
# When a command line tuple option has no value set, say
# --network bridge=br0,model=virtio
# is instead called
# --network bridge=br0,model
# We error that 'model' didn't have a value
raise RuntimeError("Option '%s' had no value set." % key)
if val == "":
val = None
if virtarg.is_onoff:
val = _on_off_convert(key, val)
self.val = val
self.key = key
self._virtarg = virtarg
# For convenience
self.propname = virtarg.propname
self.cliname = virtarg.cliname
def parse_param(self, parser, inst):
"""
Process the cli param against the pass inst.
So if we are VirtCLIArgument for --disk device=, and the user
specified --disk device=foo, we were instantiated with
key=device val=foo, so set inst.device = foo
"""
if self.val == "default" and self._virtarg.ignore_default:
return
if self._virtarg.find_inst_cb:
inst = self._virtarg.find_inst_cb(parser,
inst, self.val, self,
can_edit=True)
try:
if self.propname:
xmlutil.get_prop_path(inst, self.propname)
except AttributeError: # pragma: no cover
msg = "obj=%s does not have member=%s" % (inst, self.propname)
raise xmlutil.DevError(msg) from None
if self._virtarg.cb:
self._virtarg.cb(parser, inst, self.val, self)
else:
xmlutil.set_prop_path(inst, self.propname, self.val)
def lookup_param(self, parser, inst):
"""
See if the passed value matches our Argument, like via virt-xml
So if this Argument is for --disk device=, and the user
specified virt-xml --edit device=floppy --disk ..., we were
instantiated with key=device val=floppy, so return
'inst.device == floppy'
"""
if not self.propname and not self._virtarg.lookup_cb:
raise RuntimeError(
_("Don't know how to match device type '%(device_type)s' "
"property '%(property_name)s'") %
{"device_type": getattr(inst, "DEVICE_TYPE", ""),
"property_name": self.key})
if self._virtarg.find_inst_cb:
inst = self._virtarg.find_inst_cb(parser,
inst, self.val, self,
can_edit=False)
if not inst:
return False
if self._virtarg.lookup_cb:
return self._virtarg.lookup_cb(parser,
inst, self.val, self)
# To reliably compare between CLI style values and internal
# XML API values, we need to set the CLI value on a copy of the
# object we are checking, read back the result, and compare with that
xmlval = xmlutil.get_prop_path(inst, self.propname)
setter = inst.__class__(inst.conn, parsexml=inst.get_xml())
xmlutil.set_prop_path(setter, self.propname, self.val)
clival = xmlutil.get_prop_path(setter, self.propname)
return xmlval == clival
def parse_optstr_tuples(optstr):
"""
Parse the command string into an ordered list of tuples. So
a string like --disk path=foo,size=5,path=bar will end up like
[("path", "foo"), ("size", "5"), ("path", "bar")]
"""
argsplitter = shlex.shlex(optstr or "", posix=True)
argsplitter.commenters = ""
argsplitter.whitespace = ","
argsplitter.whitespace_split = True
ret = []
for opt in list(argsplitter):
if "=" in opt:
cliname, val = opt.split("=", 1)
else:
cliname = opt
val = None
ret.append((cliname, val))
return ret
def _parse_optstr_to_dict(optstr, virtargs, remove_first):
"""
Parse the passed argument string into an OrderedDict WRT
the passed list of VirtCLIArguments and their special handling.
So for --disk path=foo,size=5, optstr is 'path=foo,size=5', and
we return {"path": "foo", "size": "5"}
"""
optdict = collections.OrderedDict()
opttuples = parse_optstr_tuples(optstr)
def _lookup_virtarg(cliname):
for virtarg in virtargs:
if virtarg.match_name(cliname):
return virtarg
def _consume_comma_arg(commaopt):
while opttuples:
cliname, val = opttuples[0]
if _lookup_virtarg(cliname):
# Next tuple is for an actual virtarg
break
# Next tuple is a continuation of the comma argument,
# sum it up
opttuples.pop(0)
commaopt[1] += "," + cliname
if val:
commaopt[1] += "=" + val
return commaopt
# Splice in remove_first names upfront
for idx, (cliname, val) in enumerate(opttuples):
if val is not None or not remove_first:
break
opttuples[idx] = (remove_first.pop(0), cliname)
while opttuples:
cliname, val = opttuples.pop(0)
virtarg = _lookup_virtarg(cliname)
if not virtarg:
optdict[cliname] = val
continue
if virtarg.can_comma:
commaopt = _consume_comma_arg([cliname, val])
cliname = commaopt[0]
val = commaopt[1]
optdict[cliname] = val
return optdict
class _InitClass(type):
"""Metaclass for providing the _init_class function.
This allows the customisation of class creation. Similar to
'__init_subclass__' (see https://www.python.org/dev/peps/pep-0487/),
but without giving us an explicit dep on python 3.6
"""
def __new__(cls, *args, **kwargs):
if len(args) != 3:
return super().__new__(cls, *args) # pragma: no cover
name, bases, ns = args
init = ns.get('_init_class')
if isinstance(init, types.FunctionType):
raise RuntimeError( # pragma: no cover
"_init_class must be a @classmethod")
self = super().__new__(cls, name, bases, ns)
self._init_class(**kwargs) # pylint: disable=protected-access
# Check for leftover aliases
if self.aliases:
raise xmlutil.DevError(
"class=%s leftover aliases=%s" % (self, self.aliases))
return self
class VirtCLIParser(metaclass=_InitClass):
"""
Parse a compound arg string like --option foo=bar,baz=12. This is
the desired interface to VirtCLIArgument and VirtCLIOptionString.
A command line argument like --disk just extends this interface
and calls add_arg a bunch to register subarguments like path=,
size=, etc. See existing impls examples of how to do all sorts of
crazy stuff.
Class parameters:
@guest_propname: The property name in the Guest class that tracks
the object type that backs this parser. For example, the --sound
option maps to DeviceSound, which on the guest class is at
guest.devices.sound, so guest_propname = "devices.sound"
@remove_first: List of parameters to peel off the front of the
option string, and store in the optdict. So:
remove_first=["char_type"] for --serial pty,foo=bar
maps to {"char_type", "pty", "foo": "bar"}
@stub_none: If the parsed option string is just 'none', make it a no-op.
This helps us be backwards compatible: for example, --rng none is
a no-op, but one day we decide to add an rng device by default to
certain VMs, and --rng none is extended to handle that. --rng none
can be added to users command lines and it will give the expected
results regardless of the virt-install version.
@cli_arg_name: The command line argument this maps to, so
"hostdev" for --hostdev
"""
guest_propname = None
remove_first = None
stub_none = True
cli_arg_name = None
_virtargs = []
aliases = {}
supports_clearxml = True
@classmethod
def add_arg(cls, cliname, propname, *args, **kwargs):
"""
Add a VirtCLIArgument for this class.
:param skip_testsuite_tracking: Special argument handled here. If True,
if means the argument is shared among multiple cli commands.
Don't insist that each instance has full testsuite coverage.
"""
if not cls._virtargs:
cls._virtargs = []
if cls.supports_clearxml:
clearxmlvirtarg = _VirtCLIArgumentStatic(
"clearxml", None, None,
cb=cls._clearxml_cb, lookup_cb=None,
is_onoff=True)
cls._virtargs.append(clearxmlvirtarg)
parent_cliname = cls.cli_arg_name
if kwargs.pop("skip_testsuite_tracking", False):
parent_cliname = None
virtarg = _VirtCLIArgumentStatic(cliname, propname, parent_cliname,
*args, **kwargs)
if virtarg.cliname in cls.aliases:
virtarg.set_aliases(xmlutil.listify(cls.aliases.pop(virtarg.cliname)))
cls._virtargs.append(virtarg)
@classmethod
def cli_flag_name(cls):
return "--" + cls.cli_arg_name.replace("_", "-")
@classmethod
def print_introspection(cls):
"""
Print out all _param names, triggered via ex. --disk help
"""
def _sortkey(virtarg):
prefix = ""
if virtarg.cliname == "clearxml":
prefix = "0"
if virtarg.cliname.startswith("address."):
prefix = "1"
return prefix + virtarg.cliname
print("%s options:" % cls.cli_flag_name())
for arg in sorted(cls._virtargs, key=_sortkey):
print(" %s" % arg.cliname)
print("")
@classmethod
def lookup_prop(cls, obj):
"""
For the passed obj, return the equivalent of
getattr(obj, cls.guest_propname), but handle '.' in the guest_propname
"""
if not cls.guest_propname:
return None # pragma: no cover
return xmlutil.get_prop_path(obj, cls.guest_propname)
@classmethod
def prop_is_list(cls, obj):
inst = cls.lookup_prop(obj)
return isinstance(inst, list)
@classmethod
def register(cls):
# register the parser class only once
if cls not in VIRT_PARSERS:
VIRT_PARSERS.append(cls)
@classmethod
def _init_class(cls, **kwargs):
"""This method also terminates the super() chain"""
def __init__(self, optstr, guest=None, editing=None):
self.optstr = optstr
self.guest = guest
self.editing = editing
self.optdict = _parse_optstr_to_dict(self.optstr,
self._virtargs, xmlutil.listify(self.remove_first)[:])
def _clearxml_cb(self, inst, val, virtarg):
"""
Callback that handles virt-xml clearxml=yes|no magic
"""
if not self.guest_propname:
raise RuntimeError("Don't know how to clearxml for %s" %
self.cli_flag_name())
if val is not True:
return
# If there's any opts remaining, leave the root stub element
# in place with leave_stub=True, so virt-xml updates are done
# in place.
#
# Example: --edit --cpu clearxml=yes should remove the <cpu>
# block. But --edit --cpu clearxml=yes,model=foo should leave
# a <cpu> stub in place, so that it gets model=foo in place,
# otherwise the newly created cpu block gets appended to the
# end of the domain XML, which gives an ugly diff
inst.clear(leave_stub=("," in self.optstr))
def _make_find_inst_cb(self, cliarg, list_propname):
"""
Create a callback used for find_inst_cb command line lookup.
:param cliarg: The cliarg string that is followed by an index.
Example, for --disk seclabel[0-9]* mapping, this is 'seclabel'
:param list_propname: The property name on the virtinst object that
this parameter maps too. For the seclabel example, we want
disk.seclabels, so this value is 'seclabels'
"""
def cb(inst, val, virtarg, can_edit):
ignore = val
num = 0
reg = re.search(r"%s(\d+)" % cliarg, virtarg.key)
if reg:
num = int(reg.groups()[0])
if can_edit:
while len(xmlutil.get_prop_path(inst, list_propname)) < (num + 1):
xmlutil.get_prop_path(inst, list_propname).add_new()
try:
return xmlutil.get_prop_path(inst, list_propname)[num]
except IndexError:
if not can_edit:
return None
raise # pragma: no cover
return cb
def _optdict_to_param_list(self, optdict):
"""
Convert the passed optdict to a list of instantiated
VirtCLIArguments to actually interact with
"""
ret = []
for virtargstatic in self._virtargs:
for key in list(optdict.keys()):
if virtargstatic.match_name(key):
arginst = _VirtCLIArgument(virtargstatic,
key, optdict.pop(key))
ret.append(arginst)
return ret
def _check_leftover_opts(self, optdict):
"""
Used to check if there were any unprocessed entries in the
optdict after we should have emptied it. Like if the user
passed an invalid argument such as --disk idontexist=foo
"""
if optdict:
fail(_("Unknown %(optionflag)s options: %(string)s") %
{"optionflag": self.cli_flag_name(),
"string": list(optdict.keys())})
def _parse(self, inst):
"""
Subclasses can hook into this to do any pre/post processing
of the inst, or self.optdict
"""
optdict = self.optdict.copy()
for param in self._optdict_to_param_list(optdict):
param.parse_param(self, inst)
self._check_leftover_opts(optdict)
return inst
def parse(self, inst):
"""
Main entry point. Iterate over self._virtargs, and serialize
self.optdict into 'inst'.
For virt-xml, 'inst' is the virtinst object we are editing,
ex. a DeviceDisk from a parsed Guest object.
For virt-install, 'inst' is None, and we will create a new
inst for self.guest_propname, or edit a singleton object in place
like Guest.features/DomainFeatures
"""
if not self.optstr:
return None
if self.stub_none and self.optstr == "none":
return None
new_object = False
if self.guest_propname and not inst:
inst = self.lookup_prop(self.guest)
new_object = self.prop_is_list(self.guest)
if new_object:
inst = inst.new()
ret = []
try:
objs = self._parse(inst is None and self.guest or inst)
for obj in xmlutil.listify(objs):
if not self.editing and hasattr(obj, "validate"):
obj.validate()
if not new_object:
continue
if isinstance(obj, Device):
self.guest.add_device(obj)
else:
self.guest.add_child(obj)
ret += xmlutil.listify(objs)
except Exception as e:
log.debug("Exception parsing inst=%s optstr=%s",
inst, self.optstr, exc_info=True)
fail(_("Error: %(cli_flag_name)s %(options)s: %(err)s") %
{"cli_flag_name": self.cli_flag_name(),
"options": self.optstr, "err": str(e)})
return ret
def lookup_child_from_option_string(self):
"""
Given a passed option string, search the guests' child list
for all objects which match the passed options.
Used only by virt-xml --edit lookups
"""
ret = []
objlist = xmlutil.listify(self.lookup_prop(self.guest))
try:
for inst in objlist:
optdict = self.optdict.copy()
valid = True
for param in self._optdict_to_param_list(optdict):
paramret = param.lookup_param(self, inst)
if paramret is False:
valid = False
break
if valid:
ret.append(inst)
self._check_leftover_opts(optdict)
except Exception as e:
log.debug("Exception parsing inst=%s optstr=%s",
inst, self.optstr, exc_info=True)
fail(_("Error: %(cli_flag_name)s %(options)s: %(err)s") %
{"cli_flag_name": self.cli_flag_name(),
"options": self.optstr, "err": str(e)})
return ret
def noset_cb(self, inst, val, virtarg):
"""Do nothing callback"""
#################
# --xml parsing #
#################
class _XMLCLIInstance:
"""
Helper class to parse --xml content into.
Generates XMLManualAction which actually performs the work
"""
def __init__(self):
self.xpath_delete = None
self.xpath_set = None
self.xpath_create = None
self.xpath_value = None
def build_action(self):
from .xmlbuilder import XMLManualAction
if self.xpath_delete:
return XMLManualAction(self.xpath_delete,
action=XMLManualAction.ACTION_DELETE)
if self.xpath_create:
return XMLManualAction(self.xpath_create,
action=XMLManualAction.ACTION_CREATE)
xpath = self.xpath_set
if self.xpath_value:
val = self.xpath_value
else:
if "=" not in str(xpath):
fail("%s: Setting xpath must be in the form of XPATH=VALUE" %
xpath)
xpath, val = xpath.rsplit("=", 1)
return XMLManualAction(xpath, val or None)
class ParserXML(VirtCLIParser):
cli_arg_name = "xml"
supports_clearxml = False
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
cls.add_arg("xpath.delete", "xpath_delete", can_comma=True)
cls.add_arg("xpath.set", "xpath_set", can_comma=True)
cls.add_arg("xpath.create", "xpath_create", can_comma=True)
cls.add_arg("xpath.value", "xpath_value", can_comma=True)
def _parse(self, inst):
if not self.optstr.startswith("xpath."):
self.optdict.clear()
self.optdict["xpath.set"] = self.optstr
super()._parse(inst)
def parse_xmlcli(guest, options):
"""
Parse --xml option strings and add the resulting XMLManualActions
to the Guest instance
"""
for optstr in options.xml:
inst = _XMLCLIInstance()
ParserXML(optstr).parse(inst)
manualaction = inst.build_action()
guest.add_xml_manual_action(manualaction)
########################
# --unattended parsing #
########################
class ParserUnattended(VirtCLIParser):
cli_arg_name = "unattended"
supports_clearxml = False
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
cls.add_arg("profile", "profile")
cls.add_arg("admin-password-file", "admin_password_file")
cls.add_arg("user-login", "user_login")
cls.add_arg("user-password-file", "user_password_file")
cls.add_arg("product-key", "product_key")
cls.add_arg("reg-login", "reg_login")
def parse_unattended(optstr):
ret = UnattendedData()
if optstr == 1:
# This means bare --unattended, so there's nothing to parse
return ret
parser = ParserUnattended(optstr)
if parser.parse(ret):
return ret
###################
# --check parsing #
###################
def convert_old_force(options):
if options.force:
if not options.check:
options.check = "all=off"
del(options.force)
class ParserCheck(VirtCLIParser):
cli_arg_name = "check"
supports_clearxml = False
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
cls.add_arg("path_in_use", None, is_onoff=True,
cb=cls.set_cb, lookup_cb=None)
cls.add_arg("disk_size", None, is_onoff=True,
cb=cls.set_cb, lookup_cb=None)
cls.add_arg("path_exists", None, is_onoff=True,
cb=cls.set_cb, lookup_cb=None)
cls.add_arg("mac_in_use", None, is_onoff=True,
cb=cls.set_cb, lookup_cb=None)
cls.add_arg("all", "all_checks", is_onoff=True)
def set_cb(self, inst, val, virtarg):
# This sets properties on the _GlobalState objects
inst.set_validation_check(virtarg.cliname, val)
def parse_check(checks):
# Overwrite this for each parse
for optstr in xmlutil.listify(checks):
parser = ParserCheck(optstr)
parser.parse(get_global_state())
#####################
# --install parsing #
#####################
class ParserInstall(VirtCLIParser):
cli_arg_name = "install"
remove_first = "os"
supports_clearxml = False
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
cls.add_arg("bootdev", "bootdev", can_comma=True)
cls.add_arg("kernel", "kernel", can_comma=True)
cls.add_arg("initrd", "initrd", can_comma=True)
cls.add_arg("kernel_args", "kernel_args", can_comma=True)
cls.add_arg("kernel_args_overwrite", "kernel_args_overwrite",
is_onoff=True)
cls.add_arg("os", "os")
cls.add_arg("no_install", "no_install", is_onoff=True)
class InstallData:
def __init__(self):
self.bootdev = None
self.kernel = None
self.initrd = None
self.kernel_args = None
self.kernel_args_overwrite = None
self.os = None
self.is_set = False
self.no_install = None
def parse_install(optstr):
installdata = InstallData()
installdata.is_set = bool(optstr)
parser = ParserInstall(optstr or None)
parser.parse(installdata)
return installdata
########################
# --cloud-init parsing #
########################
class ParserCloudInit(VirtCLIParser):
cli_arg_name = "cloud_init"
supports_clearxml = False
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
cls.add_arg("root-password-generate", "root_password_generate", is_onoff=True)
cls.add_arg("root-password-file", "root_password_file")
cls.add_arg("disable", "disable", is_onoff=True)
cls.add_arg("ssh-key", "ssh_key")
cls.add_arg("user-data", "user_data")
cls.add_arg("meta-data", "meta_data")
cls.add_arg("network-config", "network_config")
def parse_cloud_init(optstr):
ret = CloudInitData()
if optstr == 1:
# This means bare --cloud-init, so there's nothing to parse.
log.warning("Defaulting to --cloud-init root-password-generate=yes,disable=yes")
ret.root_password_generate = True
ret.disable = True
return ret
parser = ParserCloudInit(optstr)
if parser.parse(ret):
return ret
######################
# --location parsing #
######################
class ParserLocation(VirtCLIParser):
cli_arg_name = "location"
remove_first = "location"
supports_clearxml = False
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
cls.add_arg("location", "location", can_comma=True)
cls.add_arg("kernel", "kernel", can_comma=True)
cls.add_arg("initrd", "initrd", can_comma=True)
def parse_location(optstr):
class LocationData:
def __init__(self):
self.location = None
self.kernel = None
self.initrd = None
parsedata = LocationData()
parser = ParserLocation(optstr or None)
parser.parse(parsedata)
return parsedata.location, parsedata.kernel, parsedata.initrd
########################
# --os-variant parsing #
########################
class OSVariantData(object):
def __init__(self):
self._name = None
self._id = None
self._detect = False
self._require = False
def set_compat_str(self, rawstr):
if rawstr is None or rawstr == "auto":
# The default behavior
self._detect = True
return
if rawstr == "none":
self._name = "generic"
elif "://" in rawstr:
self._id = rawstr
else:
self._name = rawstr
def validate(self):
osobj = None
if self._id:
osobj = OSDB.lookup_os_by_full_id(self._id, raise_error=True)
elif self._name:
osobj = OSDB.lookup_os(self._name, raise_error=True)
if osobj:
self._name = osobj.name
def is_generic_requested(self):
return self._detect is False or self._name == "generic"
def is_detect(self):
return self._detect
def is_require(self):
return self._require
def get_name(self):
return self._name
class ParserOSVariant(VirtCLIParser):
cli_arg_name = "os_variant"
supports_clearxml = False
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
cls.add_arg("name", "_name")
cls.add_arg("short-id", "_name")
cls.add_arg("id", "_id")
cls.add_arg("detect", "_detect", is_onoff=True)
cls.add_arg("require", "_require", is_onoff=True)
def parse(self, inst):
if "=" not in str(self.optstr):
inst.set_compat_str(self.optstr)
return
return super().parse(inst)
def parse_os_variant(optstr):
data = OSVariantData()
parser = ParserOSVariant(optstr)
parser.parse(data)
data.validate()
return data
###########################
# --noautoconsole parsing #
###########################
def _determine_default_autoconsole_type(guest, installer):
"""
Determine the default console for the passed guest config
:returns: 'text', 'graphical', or None
"""
if installer.has_cloudinit():
log.info("--cloud-init specified, defaulting to --autoconsole text")
return "text"
gdevs = guest.devices.graphics
if not gdevs:
return "text"
gtype = gdevs[0].type
if gtype not in ["default",
DeviceGraphics.TYPE_VNC,
DeviceGraphics.TYPE_SPICE]:
log.debug("No viewer to launch for graphics type '%s'", gtype)
return None
if not HAS_VIRTVIEWER and not xmlutil.in_testsuite(): # pragma: no cover
log.warning(_("Unable to connect to graphical console: "
"virt-viewer not installed. Please install "
"the 'virt-viewer' package."))
return None
if (not os.environ.get("DISPLAY", "") and
not xmlutil.in_testsuite()): # pragma: no cover
log.warning(_("Graphics requested but DISPLAY is not set. "
"Not running virt-viewer."))
return None
return "graphical"
class _AutoconsoleData(object):
def __init__(self, autoconsole, guest, installer):
self._autoconsole = autoconsole
if self._autoconsole not in ["none", "default", "text", "graphical"]:
fail(_("Unknown autoconsole type '%s'") % self._autoconsole)
self._is_default = self._autoconsole == "default"
if self._is_default:
default = _determine_default_autoconsole_type(guest, installer)
self._autoconsole = default or "none"
def is_text(self):
return self._autoconsole == "text"
def is_graphical(self):
return self._autoconsole == "graphical"
def is_default(self):
return self._is_default
def has_console_cb(self):
return bool(self.get_console_cb())
def get_console_cb(self):
if self.is_graphical():
return _gfx_console
if self.is_text():
return _txt_console
return None
def parse_autoconsole(options, guest, installer):
return _AutoconsoleData(options.autoconsole, guest, installer)
######################
# --metadata parsing #
######################
class ParserMetadata(VirtCLIParser):
cli_arg_name = "metadata"
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
cls.add_arg("name", "name", can_comma=True)
cls.add_arg("title", "title", can_comma=True)
cls.add_arg("uuid", "uuid")
cls.add_arg("genid", "genid")
cls.add_arg("genid_enable", "genid_enable", is_onoff=True)
cls.add_arg("description", "description", can_comma=True)
cls.add_arg("os_name", None, lookup_cb=None,
cb=cls.set_os_name_cb)
cls.add_arg("os_full_id", None, lookup_cb=None,
cb=cls.set_os_full_id_cb)
def set_os_name_cb(self, inst, val, virtarg):
inst.set_os_name(val)
def set_os_full_id_cb(self, inst, val, virtarg):
osobj = OSDB.lookup_os_by_full_id(val, raise_error=True)
inst.set_os_name(osobj.name)
####################
# --events parsing #
####################
class ParserEvents(VirtCLIParser):
cli_arg_name = "events"
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
cls.add_arg("on_poweroff", "on_poweroff")
cls.add_arg("on_reboot", "on_reboot")
cls.add_arg("on_crash", "on_crash")
cls.add_arg("on_lockfailure", "on_lockfailure")
######################
# --resource parsing #
######################
class ParserResource(VirtCLIParser):
cli_arg_name = "resource"
guest_propname = "resource"
remove_first = "partition"
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
cls.add_arg("partition", "partition")
cls.add_arg("fibrechannel.appid", "fibrechannel_appid", can_comma=True)
######################
# --numatune parsing #
######################
class ParserNumatune(VirtCLIParser):
cli_arg_name = "numatune"
guest_propname = "numatune"
remove_first = "nodeset"
aliases = {
"memory.mode": "mode",
"memory.nodeset": "nodeset",
}
def memnode_find_inst_cb(self, *args, **kwargs):
cliarg = "memnode" # memnode[0-9]*
list_propname = "memnode"
cb = self._make_find_inst_cb(cliarg, list_propname)
return cb(*args, **kwargs)
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
cls.add_arg("memory.nodeset", "memory_nodeset", can_comma=True)
cls.add_arg("memory.mode", "memory_mode")
cls.add_arg("memory.placement", "memory_placement")
cls.add_arg("memnode[0-9]*.cellid", "cellid", can_comma=True,
find_inst_cb=cls.memnode_find_inst_cb)
cls.add_arg("memnode[0-9]*.mode", "mode",
find_inst_cb=cls.memnode_find_inst_cb)
cls.add_arg("memnode[0-9]*.nodeset", "nodeset", can_comma=True,
find_inst_cb=cls.memnode_find_inst_cb)
####################
# --memory parsing #
####################
class ParserMemory(VirtCLIParser):
cli_arg_name = "memory"
remove_first = "memory"
aliases = {
"maxMemory.slots": "hotplugmemoryslots",
"maxMemory": "hotplugmemorymax",
}
def _convert_old_memory_options(self):
"""
Historically the cli had:
memory -> ./currentMemory
maxmemory -> ./memory
Then later libvirt gained ./maxMemory. So things are quite a mess.
Try to convert the back compat cases. Basically if new style option
currentMemory is specified, interpret currentMemory and memory as
the XML values. Otherwise treat memory and maxmemory as the old
swapped names.
"""
havecur = "currentMemory" in self.optdict
havemax = "maxmemory" in self.optdict
havemem = "memory" in self.optdict
if havecur:
if havemax:
self.optdict["memory"] = self.optdict.pop("maxmemory", None)
elif havemax:
if havemem:
self.optdict["currentMemory"] = self.optdict.pop("memory")
self.optdict["memory"] = self.optdict.pop("maxmemory")
elif havemem:
self.optdict["currentMemory"] = self.optdict.pop("memory")
def _parse(self, inst):
self._convert_old_memory_options()
return super()._parse(inst)
###################
# Option handling #
###################
def set_memory_cb(self, inst, val, virtarg):
xmlutil.set_prop_path(inst, virtarg.propname, int(val) * 1024)
@classmethod
def _init_class(cls, **kwargs):
cls.add_arg("memory", "memory", cb=cls.set_memory_cb)
cls.add_arg("currentMemory", "currentMemory", cb=cls.set_memory_cb)
cls.add_arg("maxMemory", "maxMemory", cb=cls.set_memory_cb)
cls.add_arg("maxMemory.slots", "maxMemorySlots")
# This is converted into either memory or currentMemory
cls.add_arg("maxmemory", None, lookup_cb=None, cb=cls.noset_cb)
# New memoryBacking properties should be added to the --memorybacking
cls.add_arg("hugepages", "memoryBacking.hugepages", is_onoff=True)
#####################
# --memtune parsing #
#####################
class ParserMemtune(VirtCLIParser):
cli_arg_name = "memtune"
guest_propname = "memtune"
remove_first = "soft_limit"
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
cls.add_arg("hard_limit", "hard_limit")
cls.add_arg("soft_limit", "soft_limit")
cls.add_arg("swap_hard_limit", "swap_hard_limit")
cls.add_arg("min_guarantee", "min_guarantee")
#######################
# --blkiotune parsing #
#######################
class ParserBlkiotune(VirtCLIParser):
cli_arg_name = "blkiotune"
guest_propname = "blkiotune"
remove_first = "weight"
aliases = {
"device[0-9]*.path": "device_path",
"device[0-9]*.weight": "device_weight",
"device[0-9]*.read_bytes_sec": "read_bytes_sec",
"device[0-9]*.write_bytes_sec": "write_bytes_sec",
"device[0-9]*.read_iops_sec": "read_iops_sec",
"device[0-9]*.write_iops_sec": "write_iops_sec",
}
def device_find_inst_cb(self, *args, **kwargs):
cliarg = "device" # device[0-9]*
list_propname = "devices" # blkiotune.devices
cb = self._make_find_inst_cb(cliarg, list_propname)
return cb(*args, **kwargs)
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
cls.add_arg("weight", "weight")
cls.add_arg("device[0-9]*.path", "path",
find_inst_cb=cls.device_find_inst_cb)
cls.add_arg("device[0-9]*.weight", "weight",
find_inst_cb=cls.device_find_inst_cb)
cls.add_arg("device[0-9]*.read_bytes_sec", "read_bytes_sec",
find_inst_cb=cls.device_find_inst_cb)
cls.add_arg("device[0-9]*.write_bytes_sec", "write_bytes_sec",
find_inst_cb=cls.device_find_inst_cb)
cls.add_arg("device[0-9]*.read_iops_sec", "read_iops_sec",
find_inst_cb=cls.device_find_inst_cb)
cls.add_arg("device[0-9]*.write_iops_sec", "write_iops_sec",
find_inst_cb=cls.device_find_inst_cb)
###########################
# --memorybacking parsing #
###########################
class ParserMemoryBacking(VirtCLIParser):
cli_arg_name = "memorybacking"
guest_propname = "memoryBacking"
aliases = {
"hugepages.page[0-9]*.size": "size",
"hugepages.page[0-9]*.unit": "unit",
"hugepages.page[0-9]*.nodeset": "nodeset",
"access.mode": "access_mode",
"source.type": "source_type",
}
def page_find_inst_cb(self, *args, **kwargs):
cliarg = "page" # page[0-9]*
list_propname = "pages" # memoryBacking.pages
cb = self._make_find_inst_cb(cliarg, list_propname)
return cb(*args, **kwargs)
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
cls.add_arg("hugepages", "hugepages", is_onoff=True)
cls.add_arg("hugepages.page[0-9]*.size", "size",
find_inst_cb=cls.page_find_inst_cb)
cls.add_arg("hugepages.page[0-9]*.unit", "unit",
find_inst_cb=cls.page_find_inst_cb)
cls.add_arg("hugepages.page[0-9]*.nodeset", "nodeset", can_comma=True,
find_inst_cb=cls.page_find_inst_cb)
cls.add_arg("nosharepages", "nosharepages", is_onoff=True)
cls.add_arg("locked", "locked", is_onoff=True)
cls.add_arg("access.mode", "access_mode")
cls.add_arg("source.type", "source_type")
cls.add_arg("discard", "discard", is_onoff=True)
cls.add_arg("allocation.mode", "allocation_mode")
#################
# --cpu parsing #
#################
class ParserCPU(VirtCLIParser):
cli_arg_name = "cpu"
guest_propname = "cpu"
remove_first = "model"
stub_none = False
aliases = {
"numa.cell[0-9]*.distances.sibling[0-9]*.id":
"cell[0-9]*.distances.sibling[0-9]*.id",
"numa.cell[0-9]*.distances.sibling[0-9]*.value":
"cell[0-9]*.distances.sibling[0-9]*.value",
"numa.cell[0-9]*.id": "cell[0-9]*.id",
"numa.cell[0-9]*.cpus": "cell[0-9]*.cpus",
"numa.cell[0-9]*.memory": "cell[0-9]*.memory",
}
###################
# Special parsing #
###################
def _convert_old_feature_options(self):
# For old CLI compat, --cpu force=foo,force=bar should force
# enable 'foo' and 'bar' features, but that doesn't fit with the
# CLI parser infrastructure very well.
converted = collections.defaultdict(list)
for key, value in parse_optstr_tuples(self.optstr):
if key in ["force", "require", "optional", "disable", "forbid"]:
converted[key].append(value)
# Convert +feature, -feature into expected format
for key, value in list(self.optdict.items()):
policy = None
if value or len(key) == 1:
# We definitely hit this case, but coverage doesn't notice
# for some reason
continue # pragma: no cover
if key.startswith("+"):
policy = "force"
elif key.startswith("-"):
policy = "disable"
if policy:
del(self.optdict[key])
converted[policy].append(key[1:])
self.optdict.update(converted)
def _parse(self, inst):
self._convert_old_feature_options()
return super()._parse(inst)
#################################
# Option multi-instance finders #
#################################
def cell_find_inst_cb(self, *args, **kwargs):
cliarg = "cell" # cell[0-9]*
list_propname = "cells" # cpu.cells
cb = self._make_find_inst_cb(cliarg, list_propname)
return cb(*args, **kwargs)
def cell_sibling_find_inst_cb(self, inst, *args, **kwargs):
cell = self.cell_find_inst_cb(inst, *args, **kwargs)
inst = cell
cliarg = "sibling" # cell[0-9]*.distances.sibling[0-9]*
list_propname = "siblings" # cell.siblings
cb = self._make_find_inst_cb(cliarg, list_propname)
return cb(inst, *args, **kwargs)
def cell_cache_find_inst_cb(self, inst, *args, **kwargs):
cell = self.cell_find_inst_cb(inst, *args, **kwargs)
inst = cell
cliarg = "cache" # cell[0-9]*.cache[0-9]*
list_propname = "caches" # cell.caches
cb = self._make_find_inst_cb(cliarg, list_propname)
return cb(inst, *args, **kwargs)
def latency_find_inst_cb(self, *args, **kwargs):
cliarg = "latency" # latency[0-9]*
list_propname = "latencies" # cpu.latencies
cb = self._make_find_inst_cb(cliarg, list_propname)
return cb(*args, **kwargs)
def bandwidth_find_inst_cb(self, *args, **kwargs):
cliarg = "bandwidth" # bandwidth[0-9]*
list_propname = "bandwidths" # cpu.bandwidths
cb = self._make_find_inst_cb(cliarg, list_propname)
return cb(*args, **kwargs)
#############################
# Option handling callbacks #
#############################
def set_model_cb(self, inst, val, virtarg):
if val == "host":
val = inst.SPECIAL_MODE_HOST_MODEL
if val == "none":
val = inst.SPECIAL_MODE_CLEAR
if val in inst.SPECIAL_MODES:
inst.set_special_mode(self.guest, val)
else:
inst.set_model(self.guest, val)
def set_feature_cb(self, inst, val, virtarg):
policy = virtarg.cliname
for feature_name in xmlutil.listify(val):
featureobj = None
for f in inst.features:
if f.name == feature_name:
featureobj = f
break
if featureobj:
featureobj.policy = policy
else:
inst.add_feature(feature_name, policy)
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
# 'secure' needs to be parsed before 'model'
cls.add_arg("secure", "secure", is_onoff=True)
cls.add_arg("model", "model", cb=cls.set_model_cb)
# 'model.fallback' must be parsed after 'model' as it may otherwise be
# overridden
cls.add_arg("model.fallback", "model_fallback")
cls.add_arg("model.vendor_id", "model_vendor_id")
cls.add_arg("vendor", "vendor")
cls.add_arg("mode", "mode")
cls.add_arg("match", "match")
cls.add_arg("check", "check")
cls.add_arg("migratable", "migratable", is_onoff=True)
cls.add_arg("topology.sockets", "topology.sockets")
cls.add_arg("topology.dies", "topology.dies")
cls.add_arg("topology.cores", "topology.cores")
cls.add_arg("topology.threads", "topology.threads")
cls.add_arg("cache.level", "cache.level")
cls.add_arg("cache.mode", "cache.mode")
# CPU features
# These are handled specially in _parse
cls.add_arg("force", None, lookup_cb=None, cb=cls.set_feature_cb)
cls.add_arg("require", None, lookup_cb=None, cb=cls.set_feature_cb)
cls.add_arg("optional", None, lookup_cb=None, cb=cls.set_feature_cb)
cls.add_arg("disable", None, lookup_cb=None, cb=cls.set_feature_cb)
cls.add_arg("forbid", None, lookup_cb=None, cb=cls.set_feature_cb)
# NUMA cells
cls.add_arg("numa.cell[0-9]*.id", "id",
find_inst_cb=cls.cell_find_inst_cb)
cls.add_arg("numa.cell[0-9]*.cpus", "cpus", can_comma=True,
find_inst_cb=cls.cell_find_inst_cb)
cls.add_arg("numa.cell[0-9]*.memory", "memory",
find_inst_cb=cls.cell_find_inst_cb)
cls.add_arg("numa.cell[0-9]*.unit", "unit",
find_inst_cb=cls.cell_find_inst_cb)
cls.add_arg("numa.cell[0-9]*.memAccess", "memAccess",
find_inst_cb=cls.cell_find_inst_cb)
cls.add_arg("numa.cell[0-9]*.discard", "discard",
find_inst_cb=cls.cell_find_inst_cb, is_onoff=True)
cls.add_arg("numa.cell[0-9]*.distances.sibling[0-9]*.id", "id",
find_inst_cb=cls.cell_sibling_find_inst_cb)
cls.add_arg("numa.cell[0-9]*.distances.sibling[0-9]*.value", "value",
find_inst_cb=cls.cell_sibling_find_inst_cb)
# NUMA cell caches
cls.add_arg("numa.cell[0-9]*.cache[0-9]*.level", "level",
find_inst_cb=cls.cell_cache_find_inst_cb)
cls.add_arg("numa.cell[0-9]*.cache[0-9]*.associativity", "associativity",
find_inst_cb=cls.cell_cache_find_inst_cb)
cls.add_arg("numa.cell[0-9]*.cache[0-9]*.policy", "policy",
find_inst_cb=cls.cell_cache_find_inst_cb)
cls.add_arg("numa.cell[0-9]*.cache[0-9]*.size.value", "size_value",
find_inst_cb=cls.cell_cache_find_inst_cb)
cls.add_arg("numa.cell[0-9]*.cache[0-9]*.size.unit", "size_unit",
find_inst_cb=cls.cell_cache_find_inst_cb)
cls.add_arg("numa.cell[0-9]*.cache[0-9]*.line.value", "line_value",
find_inst_cb=cls.cell_cache_find_inst_cb)
cls.add_arg("numa.cell[0-9]*.cache[0-9]*.line.unit", "line_unit",
find_inst_cb=cls.cell_cache_find_inst_cb)
# Interconnections between NUMA cells
cls.add_arg("numa.interconnects.latency[0-9]*.initiator", "initiator",
find_inst_cb=cls.latency_find_inst_cb)
cls.add_arg("numa.interconnects.latency[0-9]*.target", "target",
find_inst_cb=cls.latency_find_inst_cb)
cls.add_arg("numa.interconnects.latency[0-9]*.cache", "cache",
find_inst_cb=cls.latency_find_inst_cb)
cls.add_arg("numa.interconnects.latency[0-9]*.type", "type",
find_inst_cb=cls.latency_find_inst_cb)
cls.add_arg("numa.interconnects.latency[0-9]*.value", "value",
find_inst_cb=cls.latency_find_inst_cb)
cls.add_arg("numa.interconnects.latency[0-9]*.unit", "unit",
find_inst_cb=cls.latency_find_inst_cb)
cls.add_arg("numa.interconnects.bandwidth[0-9]*.initiator", "initiator",
find_inst_cb=cls.bandwidth_find_inst_cb)
cls.add_arg("numa.interconnects.bandwidth[0-9]*.target", "target",
find_inst_cb=cls.bandwidth_find_inst_cb)
cls.add_arg("numa.interconnects.bandwidth[0-9]*.type", "type",
find_inst_cb=cls.bandwidth_find_inst_cb)
cls.add_arg("numa.interconnects.bandwidth[0-9]*.cache", "cache",
find_inst_cb=cls.bandwidth_find_inst_cb)
cls.add_arg("numa.interconnects.bandwidth[0-9]*.value", "value",
find_inst_cb=cls.bandwidth_find_inst_cb)
cls.add_arg("numa.interconnects.bandwidth[0-9]*.unit", "unit",
find_inst_cb=cls.bandwidth_find_inst_cb)
#####################
# --cputune parsing #
#####################
class ParserCputune(VirtCLIParser):
cli_arg_name = "cputune"
guest_propname = "cputune"
remove_first = "model"
stub_none = False
def vcpupin_find_inst_cb(self, *args, **kwargs):
cliarg = "vcpupin" # vcpupin[0-9]*
list_propname = "vcpupins" # cputune.vcpupins
cb = self._make_find_inst_cb(cliarg, list_propname)
return cb(*args, **kwargs)
def iothreadpin_find_inst_cb(self, *args, **kwargs):
cliarg = "iothreadpin" # iothreadpin[0-9]*
list_propname = "iothreadpins" # cputune.iothreadpins
cb = self._make_find_inst_cb(cliarg, list_propname)
return cb(*args, **kwargs)
def vcpusched_find_inst_cb(self, *args, **kwargs):
cliarg = "vcpusched" # vcpusched[0-9]*
list_propname = "vcpuscheds" # cputune.vcpuscheds
cb = self._make_find_inst_cb(cliarg, list_propname)
return cb(*args, **kwargs)
def iothreadsched_find_inst_cb(self, *args, **kwargs):
cliarg = "iothreadsched" # iothreadsched[0-9]*
list_propname = "iothreadscheds" # cputune.iothreadscheds
cb = self._make_find_inst_cb(cliarg, list_propname)
return cb(*args, **kwargs)
def cachetune_find_inst_cb(self, *args, **kwargs):
cliarg = "cachetune" # cachetune[0-9]*
list_propname = "cachetunes" # cputune.cachetunes
cb = self._make_find_inst_cb(cliarg, list_propname)
return cb(*args, **kwargs)
def cache_find_inst_cb(self, inst, *args, **kwargs):
cachetune = self.cachetune_find_inst_cb(inst, *args, **kwargs)
inst = cachetune
cliarg = "cache" # cachetune[0-9]*.cache[0-9]*
list_propname = "caches" # cachetune.caches
cb = self._make_find_inst_cb(cliarg, list_propname)
return cb(inst, *args, **kwargs)
def monitor_find_inst_cb(self, inst, *args, **kwargs):
cachetune = self.cachetune_find_inst_cb(inst, *args, **kwargs)
inst = cachetune
cliarg = "monitor" # cachetune[0-9]*.monitor[0-9]*
list_propname = "monitors" # cachetune.monitors
cb = self._make_find_inst_cb(cliarg, list_propname)
return cb(inst, *args, **kwargs)
def memorytune_find_inst_cb(self, *args, **kwargs):
cliarg = "memorytune" # memorytune[0-9]*
list_propname = "memorytunes" # cputune.memorytunes
cb = self._make_find_inst_cb(cliarg, list_propname)
return cb(*args, **kwargs)
def node_find_inst_cb(self, inst, *args, **kwargs):
memorytune = self.memorytune_find_inst_cb(inst, *args, **kwargs)
inst = memorytune
cliarg = "node" # memorytune[0-9]*.node[0-9]*
list_propname = "nodes" # memorytune.nodes
cb = self._make_find_inst_cb(cliarg, list_propname)
return cb(inst, *args, **kwargs)
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
# Resource quotas
cls.add_arg("shares", "shares")
cls.add_arg("period", "period")
cls.add_arg("quota", "quota")
cls.add_arg("global_period", "global_period")
cls.add_arg("global_quota", "global_quota")
cls.add_arg("emulator_period", "emulator_period")
cls.add_arg("emulator_quota", "emulator_quota")
cls.add_arg("iothread_period", "iothread_period")
cls.add_arg("iothread_quota", "iothread_quota")
# Options for CPU.vcpus config
cls.add_arg("vcpupin[0-9]*.vcpu", "vcpu",
find_inst_cb=cls.vcpupin_find_inst_cb)
cls.add_arg("vcpupin[0-9]*.cpuset", "cpuset", can_comma=True,
find_inst_cb=cls.vcpupin_find_inst_cb)
cls.add_arg("emulatorpin.cpuset", "emulatorpin_cpuset", can_comma=True)
cls.add_arg("iothreadpin[0-9]*.iothread", "iothread",
find_inst_cb=cls.iothreadpin_find_inst_cb)
cls.add_arg("iothreadpin[0-9]*.cpuset", "cpuset", can_comma=True,
find_inst_cb=cls.iothreadpin_find_inst_cb)
# Scheduling
cls.add_arg("emulatorsched.scheduler", "emulatorsched_scheduler")
cls.add_arg("emulatorsched.priority", "emulatorsched_priority")
cls.add_arg("vcpusched[0-9]*.vcpus", "vcpus", can_comma=True,
find_inst_cb=cls.vcpusched_find_inst_cb)
cls.add_arg("vcpusched[0-9]*.scheduler", "scheduler",
find_inst_cb=cls.vcpusched_find_inst_cb)
cls.add_arg("vcpusched[0-9]*.priority", "priority",
find_inst_cb=cls.vcpusched_find_inst_cb)
cls.add_arg("iothreadsched[0-9]*.iothreads", "iothreads", can_comma=True,
find_inst_cb=cls.iothreadsched_find_inst_cb)
cls.add_arg("iothreadsched[0-9]*.scheduler", "scheduler",
find_inst_cb=cls.iothreadsched_find_inst_cb)
cls.add_arg("iothreadsched[0-9]*.priority", "priority",
find_inst_cb=cls.iothreadsched_find_inst_cb)
# CPU Cache & Memory Tunables
cls.add_arg("cachetune[0-9]*.vcpus", "vcpus",
find_inst_cb=cls.cachetune_find_inst_cb, can_comma=True)
cls.add_arg("cachetune[0-9]*.cache[0-9]*.id", "id",
find_inst_cb=cls.cache_find_inst_cb)
cls.add_arg("cachetune[0-9]*.cache[0-9]*.level", "level",
find_inst_cb=cls.cache_find_inst_cb)
cls.add_arg("cachetune[0-9]*.cache[0-9]*.type", "type",
find_inst_cb=cls.cache_find_inst_cb)
cls.add_arg("cachetune[0-9]*.cache[0-9]*.size", "size",
find_inst_cb=cls.cache_find_inst_cb)
cls.add_arg("cachetune[0-9]*.cache[0-9]*.unit", "unit",
find_inst_cb=cls.cache_find_inst_cb)
cls.add_arg("cachetune[0-9]*.monitor[0-9]*.level", "level",
find_inst_cb=cls.monitor_find_inst_cb)
cls.add_arg("cachetune[0-9]*.monitor[0-9]*.vcpus", "vcpus",
find_inst_cb=cls.monitor_find_inst_cb, can_comma=True)
cls.add_arg("memorytune[0-9]*.vcpus", "vcpus",
find_inst_cb=cls.memorytune_find_inst_cb, can_comma=True)
cls.add_arg("memorytune[0-9]*.node[0-9]*.id", "id",
find_inst_cb=cls.node_find_inst_cb)
cls.add_arg("memorytune[0-9]*.node[0-9]*.bandwidth", "bandwidth",
find_inst_cb=cls.node_find_inst_cb)
#######################
# --iothreads parsing #
#######################
class ParserIOThreads(VirtCLIParser):
cli_arg_name = "iothreads"
guest_propname = "iothreads"
remove_first = "iothreads"
def iothreads_find_inst_cb(self, *args, **kwargs):
cliarg = "iothread" # iothreads[0-9]*
list_propname = "iothreadids"
cb = self._make_find_inst_cb(cliarg, list_propname)
return cb(*args, **kwargs)
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
# Options for IOThreads config
cls.add_arg("iothreads", "iothreads")
cls.add_arg("iothreadids.iothread[0-9]*.id", "id",
find_inst_cb=cls.iothreads_find_inst_cb)
###################
# --vcpus parsing #
###################
class ParserVCPU(VirtCLIParser):
cli_arg_name = "vcpus"
remove_first = "vcpu"
aliases = {
"vcpu.placement": "placement",
}
def _convert_old_vcpu_opts(self):
havemax = "maxvcpus" in self.optdict
havecur = "vcpu.current" in self.optdict
havevcp = "vcpu" in self.optdict
if havecur:
if havemax:
self.optdict["vcpu"] = self.optdict.pop("maxvcpus")
elif havemax:
if havevcp:
self.optdict["vcpu.current"] = self.optdict.pop("vcpu")
self.optdict["vcpu"] = self.optdict.pop("maxvcpus")
def _add_advertised_aliases(self):
# These are essentially aliases for new style options, but we still
# want to advertise them in --vcpus=help output because they are
# historically commonly used. This should rarely, if ever, be extended
if "cpuset" in self.optdict:
self.optdict["vcpu.cpuset"] = self.optdict.pop("cpuset")
if "vcpus" in self.optdict:
self.optdict["vcpu"] = self.optdict.pop("vcpus")
def _parse(self, inst):
self._add_advertised_aliases()
self._convert_old_vcpu_opts()
return super()._parse(inst)
###################
# Option handling #
###################
def vcpu_find_inst_cb(self, *args, **kwargs):
cliarg = "vcpu" # vcpu[0-9]*
list_propname = "vcpulist.vcpu" # guest.vcpulist.vcpu
cb = self._make_find_inst_cb(cliarg, list_propname)
return cb(*args, **kwargs)
def set_cpuset_cb(self, inst, val, virtarg):
if val != "auto":
inst.vcpu_cpuset = val
return
# Previously we did our own one-time cpuset placement
# based on current NUMA memory availability, but that's
# pretty dumb unless the conditions on the host never change.
# So instead use newer vcpu placement=
inst.vcpu_placement = "auto"
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
# This is converted into either vcpu.current or vcpu
cls.add_arg("maxvcpus", "vcpus", cb=cls.noset_cb)
# These are handled in _add_advertised_aliases
cls.add_arg("cpuset", "vcpu_cpuset", can_comma=True, cb=cls.noset_cb)
cls.add_arg("vcpus", "vcpus", cb=cls.noset_cb)
# Further CPU options should be added to --cpu
cls.add_arg("sockets", "cpu.topology.sockets")
cls.add_arg("dies", "cpu.topology.dies")
cls.add_arg("cores", "cpu.topology.cores")
cls.add_arg("threads", "cpu.topology.threads")
# <domain><vcpu> options
cls.add_arg("vcpu", "vcpus")
cls.add_arg("vcpu.current", "vcpu_current")
cls.add_arg("vcpu.cpuset", "vcpu_cpuset",
can_comma=True, cb=cls.set_cpuset_cb)
cls.add_arg("vcpu.placement", "vcpu_placement")
# <domain><vcpus> options
cls.add_arg("vcpus.vcpu[0-9]*.id", "id",
find_inst_cb=cls.vcpu_find_inst_cb)
cls.add_arg("vcpus.vcpu[0-9]*.enabled", "enabled",
find_inst_cb=cls.vcpu_find_inst_cb, is_onoff=True)
cls.add_arg("vcpus.vcpu[0-9]*.hotpluggable", "hotpluggable",
find_inst_cb=cls.vcpu_find_inst_cb, is_onoff=True)
cls.add_arg("vcpus.vcpu[0-9]*.order", "order",
find_inst_cb=cls.vcpu_find_inst_cb)
##################
# --boot parsing #
##################
class ParserBoot(VirtCLIParser):
cli_arg_name = "boot"
guest_propname = "os"
aliases = {
"bios.rebootTimeout": "rebootTimeout",
"bios.useserial": "useserial",
"bootmenu.enable": "menu",
"cmdline": ["extra_args", "kernel_args"],
"loader.readonly": "loader_ro",
"loader.type": "loader_type",
"loader.secure": "loader_secure",
"nvram.template": "nvram_template",
"smbios.mode": "smbios_mode",
}
def _convert_boot_order(self, inst):
# Build boot order
boot_order = []
for cliname in list(self.optdict.keys()):
if cliname not in inst.BOOT_DEVICES:
continue
del(self.optdict[cliname])
if cliname not in boot_order:
boot_order.append(cliname)
if boot_order:
inst.bootorder = boot_order
def _parse(self, inst):
self._convert_boot_order(inst)
# Back compat to allow uefi to have no cli value specified
if "uefi" in self.optdict:
self.optdict["uefi"] = True
return super()._parse(inst)
###################
# Option handling #
###################
def set_uefi_cb(self, inst, val, virtarg):
if not self.editing:
# From virt-install, we just set this flag, and set_defaults()
# will fill in everything for us, otherwise we have a circular
# dep on determining arch/machine info
self.guest.uefi_requested = True
else:
self.guest.enable_uefi()
def set_initargs_cb(self, inst, val, virtarg):
inst.set_initargs_string(val)
def set_bootloader_cb(self, inst, val, virtarg):
self.guest.bootloader = val
def set_bootloader_args_cb(self, inst, val, virtarg):
self.guest.bootloader_args = val
def set_domain_type_cb(self, inst, val, virtarg):
self.guest.type = val
def set_emulator_cb(self, inst, val, virtarg):
self.guest.emulator = val
def boot_find_inst_cb(self, *args, **kwargs):
cliarg = "boot" # boot[0-9]*
list_propname = "bootdevs" # os.bootdevs
cb = self._make_find_inst_cb(cliarg, list_propname)
return cb(*args, **kwargs)
def initarg_find_inst_cb(self, *args, **kwargs):
cliarg = "initarg" # initarg[0-9]*
list_propname = "initargs" # os.initargs
cb = self._make_find_inst_cb(cliarg, list_propname)
return cb(*args, **kwargs)
def initenv_find_inst_cb(self, *args, **kwargs):
cliarg = "initenv" # initenv[0-9]*
list_propname = "initenvs" # os.initenvs
cb = self._make_find_inst_cb(cliarg, list_propname)
return cb(*args, **kwargs)
def feature_find_inst_cb(self, *args, **kwargs):
cliarg = "feature" # firmware.feature[0-9]*
list_propname = "firmware_features" # os.firmware_features
cb = self._make_find_inst_cb(cliarg, list_propname)
return cb(*args, **kwargs)
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
# This is simply so the boot options are advertised with --boot help,
# actual processing is handled by _parse
cls.add_arg("hd", None, lookup_cb=None, cb=cls.noset_cb)
cls.add_arg("cdrom", None, lookup_cb=None, cb=cls.noset_cb)
cls.add_arg("fd", None, lookup_cb=None, cb=cls.noset_cb)
cls.add_arg("network", None, lookup_cb=None, cb=cls.noset_cb)
# UEFI depends on these bits, so set them first
cls.add_arg("os_type", "os_type")
cls.add_arg("arch", "arch")
cls.add_arg("machine", "machine")
cls.add_arg("bootloader", None, lookup_cb=None,
cb=cls.set_bootloader_cb)
cls.add_arg("bootloader_args", None, lookup_cb=None,
cb=cls.set_bootloader_args_cb)
cls.add_arg("domain_type", None, lookup_cb=None,
cb=cls.set_domain_type_cb)
cls.add_arg("emulator", None, lookup_cb=None,
cb=cls.set_emulator_cb)
cls.add_arg("uefi", None, lookup_cb=None,
cb=cls.set_uefi_cb)
# Common/Shared boot options
cls.add_arg("loader", "loader")
cls.add_arg("loader.readonly", "loader_ro", is_onoff=True)
cls.add_arg("loader.type", "loader_type")
cls.add_arg("loader.secure", "loader_secure", is_onoff=True)
# Guest-Based bootloader options
cls.add_arg("firmware", "firmware")
cls.add_arg("firmware.feature[0-9]*.enabled", "enabled",
find_inst_cb=cls.feature_find_inst_cb, is_onoff=True)
cls.add_arg("firmware.feature[0-9]*.name", "name",
find_inst_cb=cls.feature_find_inst_cb)
cls.add_arg("nvram", "nvram")
cls.add_arg("nvram.template", "nvram_template")
cls.add_arg("boot[0-9]*.dev", "dev",
find_inst_cb=cls.boot_find_inst_cb)
cls.add_arg("bootmenu.enable", "bootmenu_enable", is_onoff=True)
cls.add_arg("bootmenu.timeout", "bootmenu_timeout")
cls.add_arg("bios.useserial", "bios_useserial", is_onoff=True)
cls.add_arg("bios.rebootTimeout", "bios_rebootTimeout")
cls.add_arg("smbios.mode", "smbios_mode")
# Direct kernel boot options
cls.add_arg("kernel", "kernel")
cls.add_arg("initrd", "initrd")
cls.add_arg("cmdline", "kernel_args", can_comma=True)
cls.add_arg("dtb", "dtb")
cls.add_arg("acpi.table", "acpi_tb")
cls.add_arg("acpi.table.type", "acpi_tb_type")
# Container boot options
cls.add_arg("init", "init")
cls.add_arg("initargs", "initargs", cb=cls.set_initargs_cb)
cls.add_arg("initarg[0-9]*", "val",
find_inst_cb=cls.initarg_find_inst_cb)
cls.add_arg("initenv[0-9]*", "value",
find_inst_cb=cls.initenv_find_inst_cb)
cls.add_arg("initenv[0-9]*.name", "name",
find_inst_cb=cls.initenv_find_inst_cb)
cls.add_arg("initdir", "initdir")
cls.add_arg("inituser", "inituser")
cls.add_arg("initgroup", "initgroup")
###################
# --idmap parsing #
###################
class ParserIdmap(VirtCLIParser):
cli_arg_name = "idmap"
guest_propname = "idmap"
aliases = {
"uid.start": "uid_start",
"uid.target": "uid_target",
"uid.count": "uid_count",
"gid.start": "gid_start",
"gid.target": "gid_target",
"gid.count": "gid_count",
}
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
cls.add_arg("uid.start", "uid_start")
cls.add_arg("uid.target", "uid_target")
cls.add_arg("uid.count", "uid_count")
cls.add_arg("gid.start", "gid_start")
cls.add_arg("gid.target", "gid_target")
cls.add_arg("gid.count", "gid_count")
######################
# --seclabel parsing #
######################
class ParserSeclabel(VirtCLIParser):
cli_arg_name = "seclabel"
guest_propname = "seclabels"
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
cls.add_arg("type", "type")
cls.add_arg("model", "model")
cls.add_arg("relabel", "relabel", is_onoff=True)
cls.add_arg("label", "label", can_comma=True)
cls.add_arg("baselabel", "baselabel", can_comma=True)
######################
# --keywrap parsing #
######################
class ParserKeyWrap(VirtCLIParser):
cli_arg_name = "keywrap"
guest_propname = "keywrap"
def cipher_find_inst_cb(self, *args, **kwargs):
cliarg = "cipher" # keywrap[0-9]*
list_propname = "cipher"
cb = self._make_find_inst_cb(cliarg, list_propname)
return cb(*args, **kwargs)
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
cls.add_arg("cipher[0-9]*.name", "name", can_comma=True,
find_inst_cb=cls.cipher_find_inst_cb)
cls.add_arg("cipher[0-9]*.state", "state", can_comma=True,
find_inst_cb=cls.cipher_find_inst_cb)
######################
# --features parsing #
######################
class ParserFeatures(VirtCLIParser):
cli_arg_name = "features"
guest_propname = "features"
aliases = {
"apic.eoi": "eoi",
"pmu.state": "pmu",
"vmport.state": "vmport",
"kvm.hidden.state": "kvm_hidden",
"gic.version": "gic_version",
"smm.state": "smm",
"vmcoreinfo.state": "vmcoreinfo",
"hyperv.reset.state": "hyperv_reset",
"hyperv.vapic.state": "hyperv_vapic",
"hyperv.relaxed.state": "hyperv_relaxed",
"hyperv.spinlocks.state": "hyperv_spinlocks",
"hyperv.spinlocks.retries": "hyperv_spinlocks_retries",
"hyperv.synic.state": "hyperv_synic",
}
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
cls.add_arg("acpi", "acpi", is_onoff=True)
cls.add_arg("apic", "apic", is_onoff=True)
cls.add_arg("pae", "pae", is_onoff=True)
cls.add_arg("privnet", "privnet", is_onoff=True)
cls.add_arg("hap", "hap", is_onoff=True)
cls.add_arg("viridian", "viridian", is_onoff=True)
cls.add_arg("apic.eoi", "eoi", is_onoff=True)
cls.add_arg("pmu.state", "pmu", is_onoff=True)
cls.add_arg("hyperv.reset.state", "hyperv_reset", is_onoff=True)
cls.add_arg("hyperv.vapic.state", "hyperv_vapic", is_onoff=True)
cls.add_arg("hyperv.relaxed.state", "hyperv_relaxed", is_onoff=True)
cls.add_arg("hyperv.spinlocks.state", "hyperv_spinlocks", is_onoff=True)
cls.add_arg("hyperv.spinlocks.retries", "hyperv_spinlocks_retries")
cls.add_arg("hyperv.synic.state", "hyperv_synic", is_onoff=True)
cls.add_arg("vmport.state", "vmport", is_onoff=True)
cls.add_arg("kvm.hidden.state", "kvm_hidden", is_onoff=True)
cls.add_arg("kvm.hint-dedicated.state", "kvm_hint_dedicated", is_onoff=True)
cls.add_arg("kvm.poll-control.state", "kvm_poll_control", is_onoff=True)
cls.add_arg("pvspinlock.state", "pvspinlock", is_onoff=True)
cls.add_arg("gic.version", "gic_version")
cls.add_arg("smm.state", "smm", is_onoff=True)
cls.add_arg("vmcoreinfo.state", "vmcoreinfo", is_onoff=True)
cls.add_arg("ioapic.driver", "ioapic_driver")
###################
# --clock parsing #
###################
class ParserClock(VirtCLIParser):
cli_arg_name = "clock"
guest_propname = "clock"
def _remove_old_options(self):
# These _tickpolicy options have never had any effect in libvirt,
# even though they aren't explicitly rejected. Make them no-ops.
# Keep them unrolled so we can easily check for code coverage
if "platform_tickpolicy" in self.optdict:
self.optdict.pop("platform_tickpolicy")
if "hpet_tickpolicy" in self.optdict:
self.optdict.pop("hpet_tickpolicy")
if "tsc_tickpolicy" in self.optdict:
self.optdict.pop("tsc_tickpolicy")
if "kvmclock_tickpolicy" in self.optdict:
self.optdict.pop("kvmclock_tickpolicy")
if "hypervclock_tickpolicy" in self.optdict:
self.optdict.pop("hypervclock_tickpolicy")
def _parse(self, inst):
self._remove_old_options()
return super()._parse(inst)
###################
# Option handling #
###################
def set_timer(self, inst, val, virtarg):
tname, propname = virtarg.cliname.split("_")
timerobj = None
for t in inst.timers:
if t.name == tname:
timerobj = t
break
if not timerobj:
timerobj = inst.timers.add_new()
timerobj.name = tname
xmlutil.set_prop_path(timerobj, propname, val)
def timer_find_inst_cb(self, *args, **kwargs):
cliarg = "timer" # timer[0-9]*
list_propname = "timers" # clock.timers
cb = self._make_find_inst_cb(cliarg, list_propname)
return cb(*args, **kwargs)
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
# Timer convenience helpers. It's unclear if we should continue
# extending this pattern, or just push users to use finegrained
# timer* config
cls.add_arg("pit_tickpolicy", None, lookup_cb=None,
cb=cls.set_timer)
cls.add_arg("rtc_tickpolicy", None, lookup_cb=None,
cb=cls.set_timer)
cls.add_arg("platform_present", None, lookup_cb=None, is_onoff=True,
cb=cls.set_timer)
cls.add_arg("pit_present", None, lookup_cb=None, is_onoff=True,
cb=cls.set_timer)
cls.add_arg("rtc_present", None, lookup_cb=None, is_onoff=True,
cb=cls.set_timer)
cls.add_arg("hpet_present", None, lookup_cb=None, is_onoff=True,
cb=cls.set_timer)
cls.add_arg("tsc_present", None, lookup_cb=None, is_onoff=True,
cb=cls.set_timer)
cls.add_arg("kvmclock_present", None, lookup_cb=None, is_onoff=True,
cb=cls.set_timer)
cls.add_arg("hypervclock_present", None, lookup_cb=None, is_onoff=True,
cb=cls.set_timer)
# Standard XML options
cls.add_arg("offset", "offset")
cls.add_arg("timer[0-9]*.name", "name",
find_inst_cb=cls.timer_find_inst_cb)
cls.add_arg("timer[0-9]*.present", "present", is_onoff=True,
find_inst_cb=cls.timer_find_inst_cb)
cls.add_arg("timer[0-9]*.tickpolicy", "tickpolicy",
find_inst_cb=cls.timer_find_inst_cb)
cls.add_arg("timer[0-9]*.track", "track",
find_inst_cb=cls.timer_find_inst_cb)
cls.add_arg("timer[0-9]*.mode", "mode",
find_inst_cb=cls.timer_find_inst_cb)
cls.add_arg("timer[0-9]*.frequency", "frequency",
find_inst_cb=cls.timer_find_inst_cb)
cls.add_arg("timer[0-9]*.catchup.threshold", "threshold",
find_inst_cb=cls.timer_find_inst_cb)
cls.add_arg("timer[0-9]*.catchup.slew", "slew",
find_inst_cb=cls.timer_find_inst_cb)
cls.add_arg("timer[0-9]*.catchup.limit", "limit",
find_inst_cb=cls.timer_find_inst_cb)
################
# --pm parsing #
################
class ParserPM(VirtCLIParser):
cli_arg_name = "pm"
guest_propname = "pm"
aliases = {
"suspend_to_mem.enabled": "suspend_to_mem",
"suspend_to_disk.enabled": "suspend_to_disk",
}
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
cls.add_arg("suspend_to_mem.enabled", "suspend_to_mem", is_onoff=True)
cls.add_arg("suspend_to_disk.enabled", "suspend_to_disk", is_onoff=True)
#####################
# --sysinfo parsing #
#####################
class ParserSysinfo(VirtCLIParser):
cli_arg_name = "sysinfo"
guest_propname = "sysinfo"
remove_first = "type"
aliases = {
"bios.vendor": "bios_vendor",
"bios.version": "bios_version",
"bios.date": "bios_date",
"bios.release": "bios_release",
"system.manufacturer": "system_manufacturer",
"system.product": "system_product",
"system.version": "system_version",
"system.serial": "system_serial",
"system.uuid": "system_uuid",
"system.sku": "system_sku",
"system.family": "system_family",
"baseBoard.manufacturer": "baseBoard_manufacturer",
"baseBoard.product": "baseBoard_product",
"baseBoard.version": "baseBoard_version",
"baseBoard.serial": "baseBoard_serial",
"baseBoard.asset": "baseBoard_asset",
"baseBoard.location": "baseBoard_location",
}
def parse(self, inst):
if self.optstr and 'type' not in self.optdict:
# If any string specified, default to type=smbios otherwise
# libvirt errors. User args can still override this though
self.optdict['type'] = 'smbios'
# Previously libvirt treated sysinfo as a singleton object, but
# that changed with fwcfg support. Our cli would merge all options
# together but now needs to support multiple. Maintain sorta
# backcompat behavior by mergin options if 'type' matches
if not inst:
typ = self.optdict["type"]
for sysinfo in self.guest.sysinfo:
if sysinfo.type == typ:
inst = sysinfo
break
return super().parse(inst)
###################
# Option handling #
###################
def set_type_cb(self, inst, val, virtarg):
if val == "host" or val == "emulate":
self.guest.os.smbios_mode = val
return
if val == "smbios":
self.guest.os.smbios_mode = "sysinfo"
inst.type = val
def set_uuid_cb(self, inst, val, virtarg):
# If a uuid is supplied it must match the guest UUID. This would be
# impossible to guess if the guest uuid is autogenerated so just
# overwrite the guest uuid with what is passed in assuming it passes
# the sanity checking below.
inst.system_uuid = val
self.guest.uuid = val
def oem_find_inst_cb(self, *args, **kwargs):
# pylint: disable=protected-access
cliarg = "entry" # oemStrings.entry[0-9]*
list_propname = "oemStrings" # sysinfo.oemStrings
cb = self._make_find_inst_cb(cliarg, list_propname)
return cb(*args, **kwargs)
def entry_find_inst_cb(self, *args, **kwargs):
# pylint: disable=protected-access
cliarg = "entry" # entry[0-9]*
list_propname = "entries" # sysinfo.entries
cb = self._make_find_inst_cb(cliarg, list_propname)
return cb(*args, **kwargs)
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
# <sysinfo type='smbios'>
cls.add_arg("type", "type", cb=cls.set_type_cb, can_comma=True)
# <bios> type 0 BIOS Information
cls.add_arg("bios.vendor", "bios_vendor")
cls.add_arg("bios.version", "bios_version")
cls.add_arg("bios.date", "bios_date")
cls.add_arg("bios.release", "bios_release")
# <system> type 1 System Information
cls.add_arg("system.manufacturer", "system_manufacturer")
cls.add_arg("system.product", "system_product")
cls.add_arg("system.version", "system_version")
cls.add_arg("system.serial", "system_serial")
cls.add_arg("system.uuid", "system_uuid", cb=cls.set_uuid_cb)
cls.add_arg("system.sku", "system_sku")
cls.add_arg("system.family", "system_family")
# <baseBoard> type 2 Baseboard (or Module) Information
cls.add_arg("baseBoard.manufacturer", "baseBoard_manufacturer")
cls.add_arg("baseBoard.product", "baseBoard_product")
cls.add_arg("baseBoard.version", "baseBoard_version")
cls.add_arg("baseBoard.serial", "baseBoard_serial")
cls.add_arg("baseBoard.asset", "baseBoard_asset")
cls.add_arg("baseBoard.location", "baseBoard_location")
cls.add_arg("chassis.manufacturer", "chassis_manufacturer")
cls.add_arg("chassis.version", "chassis_version")
cls.add_arg("chassis.serial", "chassis_serial")
cls.add_arg("chassis.asset", "chassis_asset")
cls.add_arg("chassis.sku", "chassis_sku")
cls.add_arg("oemStrings.entry[0-9]*", "value", can_comma=True,
find_inst_cb=cls.oem_find_inst_cb)
cls.add_arg("entry[0-9]*", "value", can_comma=True,
find_inst_cb=cls.entry_find_inst_cb)
cls.add_arg("entry[0-9]*.name", "name", can_comma=True,
find_inst_cb=cls.entry_find_inst_cb)
cls.add_arg("entry[0-9]*.file", "file", can_comma=True,
find_inst_cb=cls.entry_find_inst_cb)
##############################
# --qemu-commandline parsing #
##############################
class ParserQemuCLI(VirtCLIParser):
cli_arg_name = "qemu_commandline"
guest_propname = "xmlns_qemu"
def args_cb(self, inst, val, virtarg):
for opt in shlex.split(val):
obj = inst.args.add_new()
obj.value = opt
def env_cb(self, inst, val, virtarg):
name, envval = val.split("=", 1)
obj = inst.envs.add_new()
obj.name = name
obj.value = envval
def _parse(self, inst):
self.optdict.clear()
if self.optstr.startswith("env="):
self.optdict["env"] = self.optstr.split("=", 1)[1]
elif self.optstr.startswith("args="):
self.optdict["args"] = self.optstr.split("=", 1)[1]
elif self.optstr.startswith("clearxml="):
self.optdict["clearxml"] = self.optstr.split("=", 1)[1]
else:
self.optdict["args"] = self.optstr
return super()._parse(inst)
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
cls.add_arg("args", None, lookup_cb=None,
cb=cls.args_cb, can_comma=True)
cls.add_arg("env", None, lookup_cb=None,
cb=cls.env_cb, can_comma=True)
##########################
# Guest <device> parsing #
##########################
def _add_common_device_args(cls,
boot_order=False, boot_loadparm=False, virtio_options=False):
"""
Add common Device parameters, like address.*
"""
def _add_arg(*args, **kwargs):
kwargs["skip_testsuite_tracking"] = True
cls.add_arg(*args, **kwargs)
_add_arg("address.type", "address.type")
_add_arg("address.domain", "address.domain")
_add_arg("address.bus", "address.bus")
_add_arg("address.slot", "address.slot")
_add_arg("address.multifunction", "address.multifunction",
is_onoff=True)
_add_arg("address.function", "address.function")
_add_arg("address.controller", "address.controller")
_add_arg("address.unit", "address.unit")
_add_arg("address.port", "address.port")
_add_arg("address.target", "address.target")
_add_arg("address.reg", "address.reg")
_add_arg("address.cssid", "address.cssid")
_add_arg("address.ssid", "address.ssid")
_add_arg("address.devno", "address.devno")
_add_arg("address.iobase", "address.iobase")
_add_arg("address.irq", "address.irq")
_add_arg("address.base", "address.base")
_add_arg("address.zpci.uid", "address.zpci_uid")
_add_arg("address.zpci.fid", "address.zpci_fid")
_add_arg("alias.name", "alias.name")
def set_boot_order_cb(self, inst, val, virtarg):
val = int(val)
self.guest.reorder_boot_order(inst, val)
if boot_order:
cls.aliases["boot.order"] = "boot_order"
_add_arg("boot.order", "boot.order", cb=set_boot_order_cb)
if boot_loadparm:
_add_arg("boot.loadparm", "boot.loadparm")
if virtio_options:
_add_arg("driver.ats", "virtio_driver.ats", is_onoff=True)
_add_arg("driver.iommu", "virtio_driver.iommu", is_onoff=True)
_add_arg("driver.packed", "virtio_driver.packed", is_onoff=True)
_add_arg("driver.page_per_vq",
"virtio_driver.page_per_vq", is_onoff=True)
def _add_device_seclabel_args(cls, list_propname, prefix=""):
def seclabel_find_inst_cb(c, *args, **kwargs):
# pylint: disable=protected-access
cliarg = "seclabel" # seclabel[0-9]*
cb = c._make_find_inst_cb(cliarg, list_propname)
return cb(*args, **kwargs)
def _add_arg(*args, **kwargs):
kwargs["skip_testsuite_tracking"] = True
cls.add_arg(*args, **kwargs)
# DeviceDisk.seclabels properties
_add_arg(prefix + "source.seclabel[0-9]*.model", "model",
find_inst_cb=seclabel_find_inst_cb)
_add_arg(prefix + "source.seclabel[0-9]*.relabel", "relabel",
is_onoff=True, find_inst_cb=seclabel_find_inst_cb)
_add_arg(prefix + "source.seclabel[0-9]*.label", "label",
can_comma=True, find_inst_cb=seclabel_find_inst_cb)
def _add_char_source_args(cls, prefix=""):
"""
Add arguments that represent the CharSource object, which is shared
among multiple device types
"""
def set_sourcehost_cb(c, inst, val, virtarg):
inst.source.set_friendly_host(val)
def set_bind_cb(c, inst, val, virtarg):
inst.source.set_friendly_bind(val)
def set_connect_cb(c, inst, val, virtarg):
inst.source.set_friendly_connect(val)
def _add_arg(cliname, propname, *args, **kwargs):
kwargs["skip_testsuite_tracking"] = True
cls.add_arg(prefix + cliname, propname, *args, **kwargs)
_add_arg("source.path", "source.path")
_add_arg("source.host", "source.host", cb=set_sourcehost_cb)
_add_arg("source.service", "source.service")
_add_arg("source.bind_host", "source.bind_host", cb=set_bind_cb)
_add_arg("source.bind_service", "source.bind_service")
_add_arg("source.connect_host", "source.connect_host", cb=set_connect_cb)
_add_arg("source.connect_service", "source.connect_service")
_add_arg("source.mode", "source.mode")
_add_arg("source.master", "source.master")
_add_arg("source.slave", "source.slave")
_add_device_seclabel_args(cls, "source.seclabels", prefix=prefix)
_add_arg("protocol.type", "source.protocol")
_add_arg("log.file", "source.log_file")
_add_arg("log.append", "source.log_append", is_onoff=True)
##################
# --disk parsing #
##################
def _default_image_file_format(conn):
if conn.support.conn_default_qcow2():
return "qcow2"
return "raw" # pragma: no cover
def _get_default_image_format(conn, poolobj):
tmpvol = StorageVolume(conn)
tmpvol.pool = poolobj
if tmpvol.file_type != StorageVolume.TYPE_FILE:
return None
return _default_image_file_format(conn)
def _generate_new_volume_name(guest, poolobj, fmt):
ext = StorageVolume.get_file_extension_for_format(fmt)
return StorageVolume.find_free_name(
guest.conn, poolobj, guest.name or "disk",
suffix=ext, collideguest=guest)
class ParserDisk(VirtCLIParser):
cli_arg_name = "disk"
guest_propname = "devices.disk"
remove_first = "path"
stub_none = False
aliases = {
"blockio.logical_block_size": "logical_block_size",
"blockio.physical_block_size": "physical_block_size",
"iotune.read_bytes_sec": "read_bytes_sec",
"iotune.write_bytes_sec": "write_bytes_sec",
"iotune.total_bytes_sec": "total_bytes_sec",
"iotune.read_iops_sec": "read_iops_sec",
"iotune.write_iops_sec": "write_iops_sec",
"iotune.total_iops_sec": "total_iops_sec",
"source.pool": "source_pool",
"source.volume": "source_volume",
"source.name": "source_name",
"source.protocol": "source_protocol",
"source.host[0-9]*.name": "source_host_name",
"source.host[0-9]*.port": "source_host_port",
"source.host[0-9]*.socket": "source_host_socket",
"source.host[0-9]*.transport": "source_host_transport",
"source.startupPolicy": "startup_policy",
"source.seclabel[0-9]*.model": "seclabel[0-9]*.model",
"source.seclabel[0-9]*.relabel": "seclabel[0-9]*.relabel",
"source.seclabel[0-9]*.label": "seclabel[0-9]*.label",
"source.reservations.managed": "reservations.managed",
"source.reservations.source.type": "reservations.source.type",
"source.reservations.source.path": "reservations.source.path",
"source.reservations.source.mode": "reservations.source.mode",
"snapshot": "snapshot_policy",
"target.dev": "target",
"target.removable": "removable",
"target.rotation_rate": "rotation_rate",
"driver.discard": "discard",
"driver.detect_zeroes": "detect_zeroes",
"driver.error_policy": "error_policy",
"driver.io": "io",
"driver.name": "driver_name",
"driver.type": "driver_type",
}
def _add_advertised_aliases(self):
# These are essentially aliases for new style options, but we still
# want to advertise them in --disk=help output because they are
# historically commonly used. This should rarely, if ever, be extended
if "bus" in self.optdict:
self.optdict["target.bus"] = self.optdict.pop("bus")
if "cache" in self.optdict:
self.optdict["driver.cache"] = self.optdict.pop("cache")
def _parse(self, inst):
self._add_advertised_aliases()
if self.optstr == "none":
return
def parse_size(val):
if val is None:
return None
try:
return float(val)
except Exception as e:
fail(_("Improper value for 'size': %s") % str(e))
def convert_perms(val):
if val is None:
return
if val == "ro":
self.optdict["readonly"] = "on"
elif val == "sh":
self.optdict["shareable"] = "on"
elif val == "rw":
# It's default. Nothing to do.
pass
else:
fail(_("Unknown '%(optionname)s' value '%(string)s'") %
{"optionname": "perms", "string": val})
backing_store = self.optdict.pop("backing_store", None)
backing_format = self.optdict.pop("backing_format", None)
poolname = self.optdict.pop("pool", None)
volname = self.optdict.pop("vol", None)
size = parse_size(self.optdict.pop("size", None))
fmt = self.optdict.pop("format", None)
sparse = _on_off_convert("sparse", self.optdict.pop("sparse", "yes"))
convert_perms(self.optdict.pop("perms", None))
disktype = self.optdict.pop("type", None)
if volname:
if volname.count("/") != 1:
raise ValueError(_("Storage volume must be specified as "
"vol=poolname/volname"))
poolname, volname = volname.split("/")
log.debug("Parsed --disk volume as: pool=%s vol=%s",
poolname, volname)
# Set this up front, it has lots of follow on effects
if disktype:
inst.type = disktype
super()._parse(inst)
if (size and
not volname and
not poolname and
inst.is_empty() and
inst.type == inst.TYPE_FILE):
# Saw something like --disk size=X, have it imply pool=default
poolname = "default"
# Generate and fill in the disk source info
newvolname = None
poolobj = None
if poolname:
if poolname == "default":
poolxml = StoragePool.build_default_pool(self.guest.conn)
if poolxml:
poolname = poolxml.name
poolobj = self.guest.conn.storagePoolLookupByName(poolname)
StoragePool.ensure_pool_is_running(poolobj)
if volname:
vol_object = poolobj.storageVolLookupByName(volname)
inst.set_vol_object(vol_object, poolobj)
poolobj = None
if ((poolobj or inst.wants_storage_creation()) and
(fmt or size or sparse or backing_store)):
if not poolobj:
poolobj = inst.get_parent_pool()
newvolname = os.path.basename(inst.get_source_path())
if poolobj and not fmt:
fmt = _get_default_image_format(self.guest.conn, poolobj)
if newvolname is None:
newvolname = _generate_new_volume_name(self.guest, poolobj,
fmt)
vol_install = DeviceDisk.build_vol_install(
self.guest.conn, newvolname, poolobj, size, sparse,
fmt=fmt, backing_store=backing_store,
backing_format=backing_format)
inst.set_vol_install(vol_install)
return inst
###################
# Option handling #
###################
def set_path_cb(self, inst, val, virtarg):
inst.set_source_path(val)
def path_lookup_cb(self, inst, val, virtarg):
return inst.get_source_path() == val
def host_find_inst_cb(self, *args, **kwargs):
cliarg = "hosts" # host[0-9]*
list_propname = "source.hosts" # disk.hosts
cb = self._make_find_inst_cb(cliarg, list_propname)
return cb(*args, **kwargs)
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
_add_common_device_args(cls,
boot_order=True, boot_loadparm=True, virtio_options=True)
# These are all handled specially in _parse
cls.add_arg("backing_store", None, lookup_cb=None, cb=cls.noset_cb)
cls.add_arg("backing_format", None, lookup_cb=None, cb=cls.noset_cb)
cls.add_arg("pool", None, lookup_cb=None, cb=cls.noset_cb)
cls.add_arg("vol", None, lookup_cb=None, cb=cls.noset_cb)
cls.add_arg("size", None, lookup_cb=None, cb=cls.noset_cb)
cls.add_arg("format", None, lookup_cb=None, cb=cls.noset_cb)
cls.add_arg("sparse", None, lookup_cb=None, cb=cls.noset_cb)
cls.add_arg("type", None, lookup_cb=None, cb=cls.noset_cb)
# These are handled in _add_advertised_aliases
cls.add_arg("bus", "bus", cb=cls.noset_cb)
cls.add_arg("cache", "driver_cache", cb=cls.noset_cb)
# More standard XML props
cls.add_arg("source.dir", "source.dir")
cls.add_arg("source.file", "source.file")
cls.add_arg("source.dev", "source.dev")
cls.add_arg("source.pool", "source.pool")
cls.add_arg("source.volume", "source.volume")
cls.add_arg("source.name", "source.name")
cls.add_arg("source.protocol", "source.protocol")
cls.add_arg("source.startupPolicy", "startup_policy")
# type=nvme source props
cls.add_arg("source.type", "source.type")
cls.add_arg("source.namespace", "source.namespace")
cls.add_arg("source.managed", "source.managed", is_onoff=True)
cls.add_arg("source.address.domain", "source.address.domain")
cls.add_arg("source.address.bus", "source.address.bus")
cls.add_arg("source.address.slot", "source.address.slot")
cls.add_arg("source.address.function", "source.address.function")
cls.add_arg("source.host[0-9]*.name", "name",
find_inst_cb=cls.host_find_inst_cb)
cls.add_arg("source.host[0-9]*.port", "port",
find_inst_cb=cls.host_find_inst_cb)
cls.add_arg("source.host[0-9]*.socket", "socket",
find_inst_cb=cls.host_find_inst_cb)
cls.add_arg("source.host[0-9]*.transport", "transport",
find_inst_cb=cls.host_find_inst_cb)
_add_device_seclabel_args(cls, "seclabels")
cls.add_arg("path", None,
cb=cls.set_path_cb,
lookup_cb=cls.path_lookup_cb)
cls.add_arg("device", "device")
cls.add_arg("snapshot", "snapshot_policy")
cls.add_arg("sgio", "sgio")
cls.add_arg("rawio", "rawio")
cls.add_arg("serial", "serial")
cls.add_arg("wwn", "wwn")
cls.add_arg("readonly", "read_only", is_onoff=True)
cls.add_arg("shareable", "shareable", is_onoff=True)
cls.add_arg("transient", "transient", is_onoff=True)
cls.add_arg("transient.shareBacking", "transient_shareBacking", is_onoff=True)
cls.add_arg("target.bus", "bus")
cls.add_arg("target.removable", "removable", is_onoff=True)
cls.add_arg("target.dev", "target")
cls.add_arg("target.rotation_rate", "rotation_rate")
cls.add_arg("driver.cache", "driver_cache")
cls.add_arg("driver.discard", "driver_discard")
cls.add_arg("driver.detect_zeroes", "driver_detect_zeroes")
cls.add_arg("driver.name", "driver_name")
cls.add_arg("driver.type", "driver_type")
cls.add_arg("driver.copy_on_read", "driver_copy_on_read", is_onoff=True)
cls.add_arg("driver.io", "driver_io")
cls.add_arg("driver.iothread", "driver_iothread")
cls.add_arg("driver.queues", "driver_queues")
cls.add_arg("driver.error_policy", "error_policy")
cls.add_arg("iotune.read_bytes_sec", "iotune_rbs")
cls.add_arg("iotune.write_bytes_sec", "iotune_wbs")
cls.add_arg("iotune.total_bytes_sec", "iotune_tbs")
cls.add_arg("iotune.read_iops_sec", "iotune_ris")
cls.add_arg("iotune.write_iops_sec", "iotune_wis")
cls.add_arg("iotune.total_iops_sec", "iotune_tis")
cls.add_arg("blockio.logical_block_size", "logical_block_size")
cls.add_arg("blockio.physical_block_size", "physical_block_size")
cls.add_arg("geometry.cyls", "geometry_cyls")
cls.add_arg("geometry.heads", "geometry_heads")
cls.add_arg("geometry.secs", "geometry_secs")
cls.add_arg("geometry.trans", "geometry_trans")
cls.add_arg("source.reservations.managed",
"reservations_managed")
cls.add_arg("source.reservations.source.type",
"reservations_source_type")
cls.add_arg("source.reservations.source.path",
"reservations_source_path")
cls.add_arg("source.reservations.source.mode",
"reservations_source_mode")
#####################
# --network parsing #
#####################
class ParserNetwork(VirtCLIParser):
cli_arg_name = "network"
guest_propname = "devices.interface"
remove_first = "type"
stub_none = False
aliases = {
"driver.name": "driver_name",
"driver.queues": "driver_queues",
"filterref.filter": "filterref",
"link.state": "link_state",
"mac.address": "mac",
"model.type": "model",
"rom.file": "rom_file",
"rom.bar": "rom_bar",
"target.dev": "target",
"source.portgroup": "portgroup",
"source.type": "source_type",
"source.path": "source_path",
"source.mode": "source_mode",
"virtualport.type": "virtualport_type",
"virtualport.parameters.managerid": "virtualport_managerid",
"virtualport.parameters.typeid": "virtualport_typeid",
"virtualport.parameters.typeidversion": "virtualport_typeidversion",
"virtualport.parameters.instanceid": "virtualport_instanceid",
"virtualport.parameters.profileid": "virtualport_profileid",
"virtualport.parameters.interfaceid": "virtualport_interfaceid",
}
def _add_advertised_aliases(self):
# These are essentially aliases for new style options, but we still
# want to advertise them in --network=help output because they are
# historically commonly used. This should rarely, if ever, be extended
if "model" in self.optdict:
self.optdict["model.type"] = self.optdict.pop("model")
if "mac" in self.optdict:
self.optdict["mac.address"] = self.optdict.pop("mac")
# Back compat with old style network= and bridge=
if "type" not in self.optdict:
if "network" in self.optdict:
self.optdict["type"] = DeviceInterface.TYPE_VIRTUAL
self.optdict["source"] = self.optdict.pop("network")
elif "bridge" in self.optdict:
self.optdict["type"] = DeviceInterface.TYPE_BRIDGE
self.optdict["source"] = self.optdict.pop("bridge")
else:
self.optdict.pop("network", None)
self.optdict.pop("bridge", None)
def _parse(self, inst):
self._add_advertised_aliases()
if self.optstr == "none":
return
return super()._parse(inst)
###################
# Option handling #
###################
def set_mac_cb(self, inst, val, virtarg):
if val == "RANDOM":
return None
inst.macaddr = val
return val
def set_type_cb(self, inst, val, virtarg):
if val == "default":
inst.set_default_source()
else:
inst.type = val
def set_link_state(self, inst, val, virtarg):
ignore = virtarg
if val in ["up", "down"]:
inst.link_state = val
return
ret = _raw_on_off_convert(val)
if ret is True:
val = "up"
elif ret is False:
val = "down"
inst.link_state = val
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
_add_common_device_args(cls,
boot_order=True, boot_loadparm=True, virtio_options=True)
# These are handled in _add_advertised_aliases
cls.add_arg("model", "model", cb=cls.noset_cb)
cls.add_arg("mac", "macaddr", cb=cls.noset_cb)
cls.add_arg("network", "source", cb=cls.noset_cb)
cls.add_arg("bridge", "source", cb=cls.noset_cb)
# Standard XML options
cls.add_arg("type", "type", cb=cls.set_type_cb)
cls.add_arg("trustGuestRxFilters", "trustGuestRxFilters", is_onoff=True)
cls.add_arg("source", "source")
cls.add_arg("source.mode", "source_mode")
cls.add_arg("source.type", "source_type")
cls.add_arg("source.path", "source_path")
cls.add_arg("source.portgroup", "portgroup")
cls.add_arg("target.dev", "target_dev")
cls.add_arg("model.type", "model")
cls.add_arg("mac.address", "macaddr", cb=cls.set_mac_cb)
cls.add_arg("filterref.filter", "filterref")
cls.add_arg("link.state", "link_state", cb=cls.set_link_state)
cls.add_arg("driver.name", "driver_name")
cls.add_arg("driver.queues", "driver_queues")
cls.add_arg("rom.file", "rom_file")
cls.add_arg("rom.bar", "rom_bar", is_onoff=True)
cls.add_arg("mtu.size", "mtu_size")
cls.add_arg("virtualport.type",
"virtualport.type")
cls.add_arg("virtualport.parameters.managerid",
"virtualport.managerid")
cls.add_arg("virtualport.parameters.typeid",
"virtualport.typeid")
cls.add_arg("virtualport.parameters.typeidversion",
"virtualport.typeidversion")
cls.add_arg("virtualport.parameters.instanceid",
"virtualport.instanceid")
cls.add_arg("virtualport.parameters.profileid",
"virtualport.profileid")
cls.add_arg("virtualport.parameters.interfaceid",
"virtualport.interfaceid")
######################
# --graphics parsing #
######################
class ParserGraphics(VirtCLIParser):
cli_arg_name = "graphics"
guest_propname = "devices.graphics"
remove_first = "type"
stub_none = False
aliases = {
"tlsPort": "tlsport",
"password": "passwd",
"passwordValidTo": "passwdValidTo",
"image.compression": "image_compression",
"streaming.mode": "streaming_mode",
"clipboard.copypaste": "clipboard_copypaste",
"filetransfer.enable": "filetransfer_enable",
"mouse.mode": "mouse_mode",
"gl.enable": "gl",
"gl.rendernode": "rendernode",
}
def _parse(self, inst):
if self.optstr == "none":
self.guest.skip_default_graphics = True
return
return super()._parse(inst)
###################
# Option handling #
###################
def set_keymap_cb(self, inst, val, virtarg):
if not val:
val = None
elif val.lower() == "local":
log.debug("keymap=local is no longer implemented. Using None.")
val = None
elif val.lower() == "none":
val = None
inst.keymap = val
def set_type_cb(self, inst, val, virtarg):
if val == "default":
return
inst.type = val
def listens_find_inst_cb(self, *args, **kwargs):
cliarg = "listens" # listens[0-9]*
list_propname = "listens" # graphics.listens
cb = self._make_find_inst_cb(cliarg, list_propname)
return cb(*args, **kwargs)
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
_add_common_device_args(cls)
cls.add_arg("type", "type", cb=cls.set_type_cb)
cls.add_arg("port", "port")
cls.add_arg("tlsPort", "tlsPort")
cls.add_arg("websocket", "websocket")
cls.add_arg("listen", "listen")
cls.add_arg("keymap", "keymap", cb=cls.set_keymap_cb)
cls.add_arg("password", "passwd")
cls.add_arg("passwordValidTo", "passwdValidTo")
cls.add_arg("connected", "connected")
cls.add_arg("defaultMode", "defaultMode")
cls.add_arg("listens[0-9]*.type", "type",
find_inst_cb=cls.listens_find_inst_cb)
cls.add_arg("listens[0-9]*.address", "address",
find_inst_cb=cls.listens_find_inst_cb)
cls.add_arg("listens[0-9]*.network", "network",
find_inst_cb=cls.listens_find_inst_cb)
cls.add_arg("listens[0-9]*.socket", "socket",
find_inst_cb=cls.listens_find_inst_cb)
cls.add_arg("image.compression", "image_compression")
cls.add_arg("streaming.mode", "streaming_mode")
cls.add_arg("clipboard.copypaste", "clipboard_copypaste",
is_onoff=True)
cls.add_arg("mouse.mode", "mouse_mode")
cls.add_arg("filetransfer.enable", "filetransfer_enable",
is_onoff=True)
cls.add_arg("zlib.compression", "zlib_compression")
cls.add_arg("gl.enable", "gl", is_onoff=True)
cls.add_arg("gl.rendernode", "rendernode")
########################
# --controller parsing #
########################
class ParserController(VirtCLIParser):
cli_arg_name = "controller"
guest_propname = "devices.controller"
remove_first = "type"
aliases = {
"master.startport": "master",
"driver.queues": "driver_queues",
}
def _parse(self, inst):
if self.optstr == "usb2":
return DeviceController.get_usb2_controllers(inst.conn)
elif self.optstr == "usb3":
return DeviceController.get_usb3_controller(inst.conn, self.guest)
return super()._parse(inst)
###################
# Option handling #
###################
def set_address_cb(self, inst, val, virtarg):
# Convenience option for address= PCI parsing. This pattern should
# not be extended IMO, make users manually specify the address
# fields they need
addrstr = val
if addrstr.count(":") in [1, 2] and "." in addrstr:
inst.address.type = inst.address.ADDRESS_TYPE_PCI
addrstr, inst.address.function = addrstr.split(".", 1)
addrstr, inst.address.slot = addrstr.rsplit(":", 1)
inst.address.domain = "0"
if ":" in addrstr:
inst.address.domain, inst.address.bus = addrstr.split(":", 1)
return
raise ValueError(
_("Expected PCI format string for '%s'") % addrstr)
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
_add_common_device_args(cls, virtio_options=True)
cls.add_arg("type", "type")
cls.add_arg("model", "model")
cls.add_arg("index", "index")
cls.add_arg("maxGrantFrames", "maxGrantFrames")
cls.add_arg("vectors", "vectors")
cls.add_arg("master.startport", "master_startport")
cls.add_arg("driver.iothread", "driver_iothread")
cls.add_arg("driver.queues", "driver_queues")
cls.add_arg("target.chassisNr", "target_chassisNr")
cls.add_arg("target.chassis", "target_chassis")
cls.add_arg("target.port", "target_port")
cls.add_arg("target.hotplug", "target_hotplug")
cls.add_arg("target.busNr", "target_busNr")
cls.add_arg("target.index", "target_index")
cls.add_arg("target.node", "target_node")
cls.add_arg("address", None, lookup_cb=None, cb=cls.set_address_cb)
###################
# --input parsing #
###################
class ParserInput(VirtCLIParser):
cli_arg_name = "input"
guest_propname = "devices.input"
remove_first = "type"
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
_add_common_device_args(cls, virtio_options=True)
cls.add_arg("type", "type", ignore_default=True)
cls.add_arg("bus", "bus", ignore_default=True)
cls.add_arg("model", "model")
cls.add_arg("source.evdev", "source_evdev")
cls.add_arg("source.dev", "source_dev")
cls.add_arg("source.repeat", "source_repeat", is_onoff=True)
cls.add_arg("source.grab", "source_grab")
cls.add_arg("source.grabToggle", "source_grabToggle")
###################
# --iommu parsing #
###################
class ParserIommu(VirtCLIParser):
cli_arg_name = "iommu"
guest_propname = "devices.iommu"
remove_first = "model"
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
cls.add_arg("model", "model")
cls.add_arg("driver.aw_bits", "aw_bits")
cls.add_arg("driver.intremap", "intremap", is_onoff=True)
cls.add_arg("driver.caching_mode", "caching_mode", is_onoff=True)
cls.add_arg("driver.eim", "eim", is_onoff=True)
cls.add_arg("driver.iotlb", "iotlb", is_onoff=True)
#######################
# --smartcard parsing #
#######################
class ParserSmartcard(VirtCLIParser):
cli_arg_name = "smartcard"
guest_propname = "devices.smartcard"
remove_first = "mode"
def certificate_find_inst_cb(self, *args, **kwargs):
cliarg = "certificate" # certificate[0-9]*
list_propname = "certificates"
cb = self._make_find_inst_cb(cliarg, list_propname)
return cb(*args, **kwargs)
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
_add_common_device_args(cls)
cls.add_arg("mode", "mode", ignore_default=True)
cls.add_arg("type", "type", ignore_default=True)
_add_char_source_args(cls)
cls.add_arg("database", "database", can_comma=True)
cls.add_arg("certificate[0-9]*", "value", can_comma=True,
find_inst_cb=cls.certificate_find_inst_cb)
######################
# --redirdev parsing #
######################
class ParserRedir(VirtCLIParser):
cli_arg_name = "redirdev"
guest_propname = "devices.redirdev"
remove_first = "bus"
stub_none = False
def set_server_cb(self, inst, val, virtarg):
inst.source.set_friendly_host(val)
def _parse(self, inst):
if self.optstr == "none":
self.guest.skip_default_usbredir = True
return
return super()._parse(inst)
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
_add_common_device_args(cls, boot_order=True)
cls.add_arg("bus", "bus", ignore_default=True)
cls.add_arg("type", "type", ignore_default=True)
cls.add_arg("server", None, lookup_cb=None, cb=cls.set_server_cb)
_add_char_source_args(cls)
#################
# --tpm parsing #
#################
class ParserTPM(VirtCLIParser):
cli_arg_name = "tpm"
guest_propname = "devices.tpm"
remove_first = "type"
stub_none = False
aliases = {
"backend.type": "type",
"backend.version": "version",
"backend.device.path": "path",
}
def _parse(self, inst):
if self.optstr == "none":
self.guest.skip_default_tpm = True
return
if (self.optdict.get("type", "").startswith("/")):
self.optdict["path"] = self.optdict.pop("type")
return super()._parse(inst)
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
_add_common_device_args(cls)
cls.add_arg("model", "model")
cls.add_arg("backend.type", "type")
cls.add_arg("backend.version", "version")
cls.add_arg("backend.device.path", "device_path")
cls.add_arg("backend.encryption.secret", "encryption_secret")
cls.add_arg("backend.persistent_state",
"persistent_state", is_onoff=True)
#################
# --rng parsing #
#################
class ParserRNG(VirtCLIParser):
cli_arg_name = "rng"
guest_propname = "devices.rng"
remove_first = "backend.model"
stub_none = False
aliases = {
"backend.type": "backend_type",
"backend.source.mode": "backend_mode",
"backend.source.host": "backend_host",
"backend.source.service": "backend_service",
"backend.source.connect_host": "backend_connect_host",
"backend.source.connect_service": "backend_connect_service",
"rate.bytes": "rate_bytes",
"rate.period": "rate_period",
}
def _add_advertised_aliases(self):
# These are essentially aliases for new style options, but we still
# want to advertise them in --rng=help output because they are
# historically commonly used. This should rarely, if ever, be extended
if "type" in self.optdict:
self.optdict["backend.model"] = self.optdict.pop("type")
if "device" in self.optdict:
self.optdict["backend"] = self.optdict.pop("device")
def _parse(self, inst):
if self.optstr == "none":
self.guest.skip_default_rng = True
return
self._add_advertised_aliases()
if self.optdict.get("backend.model", "").startswith("/"):
# Handle --rng /path/to/dev
self.optdict["backend"] = self.optdict.pop("backend.model")
self.optdict["backend.model"] = "random"
return super()._parse(inst)
###################
# Option handling #
###################
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
_add_common_device_args(cls, virtio_options=True)
# These are handled in _add_advertised_aliases
cls.add_arg("type", "backend_model", cb=cls.noset_cb)
cls.add_arg("device", "device", cb=cls.noset_cb)
cls.add_arg("model", "model")
cls.add_arg("backend", "device")
cls.add_arg("backend.model", "backend_model")
cls.add_arg("backend.type", "backend_type")
_add_char_source_args(cls, prefix="backend.")
cls.add_arg("rate.bytes", "rate_bytes")
cls.add_arg("rate.period", "rate_period")
######################
# --watchdog parsing #
######################
class ParserWatchdog(VirtCLIParser):
cli_arg_name = "watchdog"
guest_propname = "devices.watchdog"
remove_first = "model"
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
_add_common_device_args(cls)
cls.add_arg("model", "model", ignore_default=True)
cls.add_arg("action", "action", ignore_default=True)
####################
# --memdev parsing #
####################
class ParserMemdev(VirtCLIParser):
cli_arg_name = "memdev"
guest_propname = "devices.memory"
remove_first = "model"
aliases = {
"target.size": "target_size",
"target.node": "target_node",
"target.label_size": "target_label_size",
"source.pagesize": "source_pagesize",
"source.path": "source_path",
"source.nodemask": "source_nodemask",
}
def set_target_size(self, inst, val, virtarg):
xmlutil.set_prop_path(inst, virtarg.propname, int(val) * 1024)
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
_add_common_device_args(cls)
cls.add_arg("model", "model")
cls.add_arg("access", "access")
cls.add_arg("discard", "discard", is_onoff=True)
cls.add_arg("uuid", "uuid")
cls.add_arg("target.size", "target.size", cb=cls.set_target_size)
cls.add_arg("target.node", "target.node")
cls.add_arg("target.label_size", "target.label_size",
cb=cls.set_target_size)
cls.add_arg("target.block", "target.block")
cls.add_arg("target.current", "target.current")
cls.add_arg("target.requested", "target.requested")
cls.add_arg("target.readonly", "target.readonly", is_onoff=True)
cls.add_arg("source.pagesize", "source.pagesize")
cls.add_arg("source.path", "source.path")
cls.add_arg("source.nodemask", "source.nodemask", can_comma=True)
cls.add_arg("source.pmem", "source.pmem", is_onoff=True)
cls.add_arg("source.alignsize", "source.alignsize",
cb=cls.set_target_size)
########################
# --memballoon parsing #
########################
class ParserMemballoon(VirtCLIParser):
cli_arg_name = "memballoon"
guest_propname = "devices.memballoon"
remove_first = "model"
stub_none = False
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
_add_common_device_args(cls, virtio_options=True)
cls.add_arg("model", "model", ignore_default=True)
cls.add_arg("autodeflate", "autodeflate", is_onoff=True)
cls.add_arg("stats.period", "stats_period")
cls.add_arg("freePageReporting", "freePageReporting", is_onoff=True)
###################
# --panic parsing #
###################
class ParserPanic(VirtCLIParser):
cli_arg_name = "panic"
guest_propname = "devices.panic"
remove_first = "model"
aliases = {
"address.iobase": "iobase",
}
def _parse(self, inst):
# Handle old style '--panic 0xFOO' to set the iobase value
if (len(self.optdict) == 1 and
self.optdict.get("model", "").startswith("0x")):
self.optdict["address.iobase"] = self.optdict["model"]
self.optdict["model"] = DevicePanic.MODEL_ISA
return super()._parse(inst)
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
_add_common_device_args(cls)
cls.add_arg("model", "model", ignore_default=True)
###################
# --shmem parsing #
###################
class ParserShMem(VirtCLIParser):
cli_arg_name = "shmem"
guest_propname = "devices.shmem"
remove_first = "name"
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
_add_common_device_args(cls)
cls.add_arg("name", "name")
cls.add_arg("role", "role")
cls.add_arg("model.type", "type")
cls.add_arg("size", "size")
cls.add_arg("size.unit", "size_unit")
cls.add_arg("server.path", "server_path")
cls.add_arg("msi.vectors", "msi_vectors")
cls.add_arg("msi.ioeventfd", "msi_ioeventfd")
###################
# --vsock parsing #
###################
class ParserVsock(VirtCLIParser):
cli_arg_name = "vsock"
guest_propname = "devices.vsock"
remove_first = "model"
stub_none = False
aliases = {
"cid.auto": "auto_cid",
"cid.address": "cid",
}
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
_add_common_device_args(cls, virtio_options=True)
cls.add_arg("model", "model", ignore_default=True)
cls.add_arg("cid.auto", "auto_cid", is_onoff=True)
cls.add_arg("cid.address", "cid")
######################################################
# --serial, --parallel, --channel, --console parsing #
######################################################
class _ParserChar(VirtCLIParser):
remove_first = "type"
stub_none = False
aliases = {
"type": "char_type",
"protocol.type": "protocol",
"target.address": "target_address",
"target.type": "target_type",
"target.name": "name",
}
def _add_advertised_aliases(self):
# These are essentially aliases for new style options, but we still
# want to advertise them in --$OPT=help output because they are
# historically commonly used. This should rarely, if ever, be extended
if "path" in self.optdict:
self.optdict["source.path"] = self.optdict.pop("path")
if "mode" in self.optdict:
self.optdict["source.mode"] = self.optdict.pop("mode")
if "bind_host" in self.optdict:
self.optdict["source.bind_host"] = self.optdict.pop("bind_host")
def _parse(self, inst):
if self.optstr == "none" and inst.DEVICE_TYPE == "console":
self.guest.skip_default_console = True
return
if self.optstr == "none" and inst.DEVICE_TYPE == "channel":
self.guest.skip_default_channel = True
return
self._add_advertised_aliases()
return super()._parse(inst)
###################
# Option handling #
###################
def set_host_cb(self, inst, val, virtarg):
if ("source.bind_host" not in self.optdict and
self.optdict.get("source.mode", None) == "bind"):
inst.source.set_friendly_bind(val)
else:
inst.source.set_friendly_connect(val)
def set_target_cb(self, inst, val, virtarg):
inst.set_friendly_target(val)
@classmethod
def _init_class(cls, **kwargs):
# _virtargs already populated via subclass creation, so
# don't double register options
if cls._virtargs:
return
VirtCLIParser._init_class(**kwargs)
_add_common_device_args(cls)
cls.add_arg("type", "type")
# These are handled in _add_advertised_aliases
cls.add_arg("path", "source.path", cb=cls.noset_cb)
cls.add_arg("mode", "source.mode", cb=cls.noset_cb)
cls.add_arg("bind_host", "source.bind_host", cb=cls.noset_cb)
# Old backcompat argument
cls.add_arg("host", "source.host", cb=cls.set_host_cb)
_add_char_source_args(cls)
cls.add_arg("target.address", "target_address", cb=cls.set_target_cb)
cls.add_arg("target.type", "target_type")
cls.add_arg("target.name", "target_name")
cls.add_arg("target.port", "target_port")
cls.add_arg("target.model.name", "target_model_name")
class ParserSerial(_ParserChar):
cli_arg_name = "serial"
guest_propname = "devices.serial"
class ParserParallel(_ParserChar):
cli_arg_name = "parallel"
guest_propname = "devices.parallel"
class ParserChannel(_ParserChar):
cli_arg_name = "channel"
guest_propname = "devices.channel"
class ParserConsole(_ParserChar):
cli_arg_name = "console"
guest_propname = "devices.console"
########################
# --filesystem parsing #
########################
class ParserFilesystem(VirtCLIParser):
cli_arg_name = "filesystem"
guest_propname = "devices.filesystem"
remove_first = ["source", "target"]
aliases = {
"accessmode": "mode",
}
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
_add_common_device_args(cls, virtio_options=True)
cls.add_arg("type", "type")
cls.add_arg("accessmode", "accessmode")
cls.add_arg("model", "model")
cls.add_arg("multidevs", "multidevs")
cls.add_arg("readonly", "readonly", is_onoff=True)
cls.add_arg("space_hard_limit", "space_hard_limit")
cls.add_arg("space_soft_limit", "space_soft_limit")
cls.add_arg("fmode", "fmode")
cls.add_arg("dmode", "dmode")
cls.add_arg("source", "source")
cls.add_arg("target", "target")
cls.add_arg("source.file", "source_file")
cls.add_arg("source.dir", "source_dir")
cls.add_arg("source.dev", "source_dev")
cls.add_arg("source.name", "source_name")
cls.add_arg("source.pool", "source_pool")
cls.add_arg("source.volume", "source_volume")
cls.add_arg("source.units", "source_units")
cls.add_arg("source.usage", "source_usage")
cls.add_arg("source.socket", "source_socket")
cls.add_arg("target.dir", "target_dir")
cls.add_arg("binary.path", "binary_path")
cls.add_arg("binary.xattr", "binary_xattr", is_onoff=True)
cls.add_arg("binary.cache.mode", "binary_cache_mode")
cls.add_arg("binary.lock.posix", "binary_lock_posix", is_onoff=True)
cls.add_arg("binary.lock.flock", "binary_lock_flock", is_onoff=True)
cls.add_arg("binary.sandbox.mode", "binary_sandbox_mode")
cls.add_arg("driver.format", "driver_format")
cls.add_arg("driver.name", "driver_name")
cls.add_arg("driver.queue", "driver_queue")
cls.add_arg("driver.type", "driver_type")
cls.add_arg("driver.wrpolicy", "driver_wrpolicy")
###################
# --video parsing #
###################
class ParserVideo(VirtCLIParser):
cli_arg_name = "video"
guest_propname = "devices.video"
remove_first = "model.type"
aliases = {
"model.type": "model",
"model.heads": "heads",
"model.ram": "ram",
"model.vram": "vram",
"model.vram64": "vram64",
"model.vgamem": "vgamem",
"model.acceleration.accel3d": "accel3d",
}
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
_add_common_device_args(cls, virtio_options=True)
cls.add_arg("model.type", "model", ignore_default=True)
cls.add_arg("model.acceleration.accel3d", "accel3d", is_onoff=True)
cls.add_arg("model.heads", "heads")
cls.add_arg("model.ram", "ram")
cls.add_arg("model.vram", "vram")
cls.add_arg("model.vram64", "vram64")
cls.add_arg("model.vgamem", "vgamem")
###################
# --sound parsing #
###################
class ParserSound(VirtCLIParser):
cli_arg_name = "sound"
guest_propname = "devices.sound"
remove_first = "model"
stub_none = False
def _parse(self, inst):
if self.optstr == "none":
self.guest.skip_default_sound = True
return
return super()._parse(inst)
def codec_find_inst_cb(self, *args, **kwargs):
cliarg = "codec" # codec[0-9]*
list_propname = "codecs"
cb = self._make_find_inst_cb(cliarg, list_propname)
return cb(*args, **kwargs)
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
_add_common_device_args(cls)
cls.add_arg("model", "model", ignore_default=True)
cls.add_arg("audio.id", "audio_id")
cls.add_arg("codec[0-9]*.type", "type",
find_inst_cb=cls.codec_find_inst_cb)
#####################
# --hostdev parsing #
#####################
def _AddressStringToHostdev(conn, addrstr):
"""
Decompose common USB and PCI address string formats into a DeviceHostdev
instance. The 3 expected formats are:
- bus.addr (ex. 001.003 for a usb device)
- vendor:product (ex. 0x1234:0x5678 for a usb device
- (domain:)bus:slot.func (ex. 00:10.0 for a pci device)
"""
hostdev = DeviceHostdev(conn)
if addrstr.count(":") in [1, 2] and "." in addrstr:
# PCI address
addrstr, func = addrstr.split(".", 1)
addrstr, slot = addrstr.rsplit(":", 1)
domain = "0"
if ":" in addrstr:
domain, bus = addrstr.split(":", 1)
else:
bus = addrstr
hostdev.type = "pci"
hostdev.domain = "0x%.4X" % int(domain, 16)
hostdev.function = "0x%.2X" % int(func, 16)
hostdev.slot = "0x%.2X" % int(slot, 16)
hostdev.bus = "0x%.2X" % int(bus, 16)
elif ":" in addrstr:
# USB product:vendor
vendor, product = addrstr.split(":")
hostdev.type = "usb"
hostdev.vendor = "0x%.4X" % int(vendor, 16)
hostdev.product = "0x%.4X" % int(product, 16)
elif "." in addrstr:
# USB bus.device
bus, device = addrstr.split(".", 1)
hostdev.type = "usb"
hostdev.bus = bus
hostdev.device = device
else:
raise RuntimeError(
"Unknown hostdev address string format '%s'" % addrstr)
return hostdev
def _AddressStringToNodedev(conn, addrstr):
try:
hostdev = _AddressStringToHostdev(conn, addrstr)
except Exception:
log.debug("Error parsing node device string.", exc_info=True)
raise
count = 0
nodedev = None
for xmlobj in conn.fetch_all_nodedevs():
if xmlobj.compare_to_hostdev(hostdev):
nodedev = xmlobj
count += 1
if count > 1:
raise ValueError(_("%s corresponds to multiple node devices") %
addrstr)
if count < 1:
raise ValueError(_("Did not find a matching node device for '%s'") %
addrstr)
return nodedev
def _lookupNodedevFromString(conn, idstring):
# First try and see if this is a libvirt nodedev name
nodedev = NodeDevice.lookupNodedevByName(conn, idstring)
if nodedev:
return nodedev
# If not it must be a special CLI format that we need to parse
try:
return _AddressStringToNodedev(conn, idstring)
except Exception:
log.debug("Error looking up nodedev from idstring=%s",
idstring, exc_info=True)
raise
class ParserHostdev(VirtCLIParser):
cli_arg_name = "hostdev"
guest_propname = "devices.hostdev"
remove_first = "name"
aliases = {
"driver.name": "driver_name",
"rom.bar": "rom_bar",
}
def set_name_cb(self, inst, val, virtarg):
if inst.type == "net":
inst.mode = "capabilities"
inst.net_interface = val
elif inst.type == "misc":
inst.mode = "capabilities"
inst.misc_char = val
elif inst.type == "storage":
inst.mode = "capabilities"
inst.storage_block = val
else:
val = _lookupNodedevFromString(inst.conn, val)
inst.set_from_nodedev(val)
def name_lookup_cb(self, inst, val, virtarg):
nodedev = _lookupNodedevFromString(inst.conn, val)
return nodedev.compare_to_hostdev(inst)
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
_add_common_device_args(cls, boot_order=True)
cls.add_arg("type", "type")
cls.add_arg("name", None,
cb=cls.set_name_cb,
lookup_cb=cls.name_lookup_cb)
cls.add_arg("driver.name", "driver_name")
cls.add_arg("rom.bar", "rom_bar", is_onoff=True)
#############################
# --launchSecurity parsing #
#############################
class ParserLaunchSecurity(VirtCLIParser):
cli_arg_name = "launchSecurity"
guest_propname = "launchSecurity"
remove_first = "type"
@classmethod
def _init_class(cls, **kwargs):
VirtCLIParser._init_class(**kwargs)
cls.add_arg("type", "type")
cls.add_arg("cbitpos", "cbitpos")
cls.add_arg("reducedPhysBits", "reducedPhysBits")
cls.add_arg("policy", "policy")
cls.add_arg("session", "session")
cls.add_arg("dhCert", "dhCert")
cls.add_arg("kernelHashes", "kernelHashes", is_onoff=True)
###########################
# Public virt parser APIs #
###########################
def parse_option_strings(options, guest, instlist, editing=False):
"""
Iterate over VIRT_PARSERS, and launch the associated parser
function for every value that was filled in on 'options', which
came from argparse/the command line.
@editing: If we are updating an existing guest, like from virt-xml
"""
instlist = xmlutil.listify(instlist)
if not instlist:
instlist = [None]
ret = []
for parserclass in VIRT_PARSERS:
optlist = xmlutil.listify(getattr(options, parserclass.cli_arg_name))
if not optlist:
continue
for inst in instlist:
if inst and optlist:
# If an object is passed in, we are updating it in place, and
# only use the last command line occurrence, eg. from virt-xml
optlist = [optlist[-1]]
for optstr in optlist:
parserobj = parserclass(optstr, guest=guest, editing=editing)
parseret = parserobj.parse(inst)
ret += xmlutil.listify(parseret)
return ret
def check_option_introspection(options):
"""
Check if the user requested option introspection with ex: '--disk=?'
"""
ret = False
for parserclass in _get_completer_parsers():
if not hasattr(options, parserclass.cli_arg_name):
continue
optlist = xmlutil.listify(getattr(options, parserclass.cli_arg_name))
if not optlist:
continue
for optstr in optlist:
if optstr == "?" or optstr == "help":
parserclass.print_introspection()
ret = True
return ret