virt-manager/virtinst/domcapabilities.py

223 lines
6.2 KiB
Python

#
# Support for parsing libvirt's domcapabilities XML
#
# Copyright 2014 Red Hat, Inc.
#
# This work is licensed under the GNU GPLv2 or later.
# See the COPYING file in the top-level directory.
import logging
import re
from .xmlbuilder import XMLBuilder, XMLChildProperty, XMLProperty
########################################
# Genering <enum> and <value> handling #
########################################
class _Value(XMLBuilder):
XML_NAME = "value"
value = XMLProperty(".")
class _HasValues(XMLBuilder):
values = XMLChildProperty(_Value)
def get_values(self):
return [v.value for v in self.values]
class _Enum(_HasValues):
XML_NAME = "enum"
name = XMLProperty("./@name")
class _CapsBlock(_HasValues):
supported = XMLProperty("./@supported", is_yesno=True)
enums = XMLChildProperty(_Enum)
def enum_names(self):
return [e.name for e in self.enums]
def get_enum(self, name):
d = dict((e.name, e) for e in self.enums)
return d[name]
def _make_capsblock(xml_root_name):
"""
Build a class object representing a list of <enum> in the XML. For
example, domcapabilities may have a block like:
<graphics supported='yes'>
<enum name='type'>
<value>sdl</value>
<value>vnc</value>
<value>spice</value>
</enum>
</graphics>
To build a class that tracks that whole <graphics> block, call this
like _make_capsblock("graphics")
"""
class TmpClass(_CapsBlock):
pass
setattr(TmpClass, "XML_NAME", xml_root_name)
return TmpClass
#############################
# Misc toplevel XML classes #
#############################
class _OS(_CapsBlock):
XML_NAME = "os"
loader = XMLChildProperty(_make_capsblock("loader"), is_single=True)
class _Devices(_CapsBlock):
XML_NAME = "devices"
hostdev = XMLChildProperty(_make_capsblock("hostdev"), is_single=True)
disk = XMLChildProperty(_make_capsblock("disk"), is_single=True)
class _Features(_CapsBlock):
XML_NAME = "features"
gic = XMLChildProperty(_make_capsblock("gic"), is_single=True)
###############
# CPU classes #
###############
class _CPUModel(XMLBuilder):
XML_NAME = "model"
model = XMLProperty(".")
usable = XMLProperty("./@usable", is_yesno=True)
class _CPUMode(XMLBuilder):
XML_NAME = "mode"
name = XMLProperty("./@name")
models = XMLChildProperty(_CPUModel)
def get_model(self, name):
for model in self.models:
if model.model == name:
return model
class _CPU(XMLBuilder):
XML_NAME = "cpu"
modes = XMLChildProperty(_CPUMode)
def get_mode(self, name):
for mode in self.modes:
if mode.name == name:
return mode
#################################
# DomainCapabilities main class #
#################################
class DomainCapabilities(XMLBuilder):
@staticmethod
def build_from_params(conn, emulator, arch, machine, hvtype):
xml = None
if conn.check_support(
conn.SUPPORT_CONN_DOMAIN_CAPABILITIES):
try:
xml = conn.getDomainCapabilities(emulator, arch,
machine, hvtype)
except Exception:
logging.debug("Error fetching domcapabilities XML",
exc_info=True)
if not xml:
# If not supported, just use a stub object
return DomainCapabilities(conn)
return DomainCapabilities(conn, parsexml=xml)
@staticmethod
def build_from_guest(guest):
return DomainCapabilities.build_from_params(guest.conn,
guest.emulator, guest.os.arch, guest.os.machine, guest.type)
# Mapping of UEFI binary names to their associated architectures. We
# only use this info to do things automagically for the user, it shouldn't
# validate anything the user explicitly enters.
_uefi_arch_patterns = {
"i686": [
".*ovmf-ia32.*", # fedora, gerd's firmware repo
],
"x86_64": [
".*OVMF_CODE\.fd", # RHEL
".*ovmf-x64/OVMF.*\.fd", # gerd's firmware repo
".*ovmf-x86_64-.*", # SUSE
".*ovmf.*", ".*OVMF.*", # generic attempt at a catchall
],
"aarch64": [
".*AAVMF_CODE\.fd", # RHEL
".*aarch64/QEMU_EFI.*", # gerd's firmware repo
".*aarch64.*", # generic attempt at a catchall
],
"armv7l": [
".*arm/QEMU_EFI.*", # fedora, gerd's firmware repo
],
}
def find_uefi_path_for_arch(self):
"""
Search the loader paths for one that matches the passed arch
"""
if not self.arch_can_uefi():
return
patterns = self._uefi_arch_patterns.get(self.arch)
for pattern in patterns:
for path in [v.value for v in self.os.loader.values]:
if re.match(pattern, path):
return path
def label_for_firmware_path(self, path):
"""
Return a pretty label for passed path, based on if we know
about it or not
"""
if not path:
if self.arch in ["i686", "x86_64"]:
return _("BIOS")
return _("None")
for arch, patterns in self._uefi_arch_patterns.items():
for pattern in patterns:
if re.match(pattern, path):
return (_("UEFI %(arch)s: %(path)s") %
{"arch": arch, "path": path})
return _("Custom: %(path)s" % {"path": path})
def arch_can_uefi(self):
"""
Return True if we know how to setup UEFI for the passed arch
"""
return self.arch in list(self._uefi_arch_patterns.keys())
def supports_uefi_xml(self):
"""
Return True if libvirt advertises support for proper UEFI setup
"""
return ("readonly" in self.os.loader.enum_names() and
"yes" in self.os.loader.get_enum("readonly").get_values())
XML_NAME = "domainCapabilities"
os = XMLChildProperty(_OS, is_single=True)
cpu = XMLChildProperty(_CPU, is_single=True)
devices = XMLChildProperty(_Devices, is_single=True)
arch = XMLProperty("./arch")
features = XMLChildProperty(_Features, is_single=True)