virt-manager/virtinst/install/urldetect.py
Fabiano Fidêncio 016cc1d866 urldetect: Add get_os_tree()
Let's add a method that allows the tree object to be retrieved from the
_DistroTree class.

Reviewed-by: Cole Robinson <crobinso@redhat.com>
Signed-off-by: Fabiano Fidêncio <fidencio@redhat.com>
2019-07-16 16:54:29 -04:00

875 lines
29 KiB
Python

#
# Copyright 2006-2007, 2013 Red Hat, Inc.
#
# This work is licensed under the GNU GPLv2 or later.
# See the COPYING file in the top-level directory.
import configparser
import re
from ..logger import log
from ..osdict import OSDB
###############################################
# Helpers for detecting distro from given URL #
###############################################
class _DistroCache(object):
def __init__(self, fetcher):
self._fetcher = fetcher
self._filecache = {}
self._treeinfo = None
self.treeinfo_family = None
self.treeinfo_version = None
self.treeinfo_name = None
self.treeinfo_matched = False
self.suse_content = None
self.checked_for_suse_content = False
self.debian_media_type = None
self.libosinfo_os_variant = None
self.libosinfo_mediaobj = None
self.libosinfo_treeobj = None
def acquire_file_content(self, path):
if path not in self._filecache:
try:
content = self._fetcher.acquireFileContent(path)
except ValueError:
content = None
log.debug("Failed to acquire file=%s", path)
self._filecache[path] = content
return self._filecache[path]
@property
def treeinfo(self):
if self._treeinfo:
return self._treeinfo
# Vast majority of trees here use .treeinfo. However, trees via
# Red Hat satellite on akamai CDN will use treeinfo, because akamai
# doesn't do dotfiles apparently:
#
# https://bugzilla.redhat.com/show_bug.cgi?id=635065
#
# Anaconda is the canonical treeinfo consumer and they check for both
# locations, so we need to do the same
treeinfostr = (self.acquire_file_content(".treeinfo") or
self.acquire_file_content("treeinfo"))
if treeinfostr is None:
return None
# If the file doesn't parse or there's no 'family', this will
# error, but that should be fine because we aren't going to
# successfully detect the tree anyways
treeinfo = configparser.SafeConfigParser()
treeinfo.read_string(treeinfostr)
self.treeinfo_family = treeinfo.get("general", "family")
self._treeinfo = treeinfo
log.debug("treeinfo family=%s", self.treeinfo_family)
if self._treeinfo.has_option("general", "version"):
self.treeinfo_version = self._treeinfo.get("general", "version")
log.debug("Found treeinfo version=%s", self.treeinfo_version)
if self._treeinfo.has_option("general", "name"):
self.treeinfo_name = self._treeinfo.get("general", "name")
log.debug("Found treeinfo name=%s", self.treeinfo_name)
return self._treeinfo
def treeinfo_family_regex(self, famregex):
if not self.treeinfo:
return False
ret = bool(re.match(famregex, self.treeinfo_family))
self.treeinfo_matched = ret
if not ret:
log.debug("Didn't match treeinfo family regex=%s", famregex)
return ret
def content_regex(self, filename, regex):
"""
Fetch 'filename' and return True/False if it matches the regex
"""
content = self.acquire_file_content(filename)
if content is None:
return False
for line in content.splitlines():
if re.match(regex, line):
return True
log.debug("found filename=%s but regex=%s didn't match",
filename, regex)
return False
def get_treeinfo_media(self, typ):
"""
Pull kernel/initrd/boot.iso paths out of the treeinfo for
the passed data
"""
def _get_treeinfo_path(media_name):
image_type = self.treeinfo.get("general", "arch")
if typ == "xen":
image_type = "xen"
return self.treeinfo.get("images-%s" % image_type, media_name)
try:
return [(_get_treeinfo_path("kernel"),
_get_treeinfo_path("initrd"))]
except Exception: # pragma: no cover
log.debug("Failed to parse treeinfo kernel/initrd",
exc_info=True)
return []
def split_version(self):
verstr = self.treeinfo_version
def _safeint(c):
try:
return int(c)
except Exception:
return 0
# Parse a string like 6.9 or 7.4 into its two parts
# centos altarch's have just version=7
update = 0
version = _safeint(verstr)
if verstr.count(".") >= 1:
version = _safeint(verstr.split(".")[0])
update = _safeint(verstr.split(".")[1])
log.debug("converted verstr=%s to version=%s update=%s",
verstr, version, update)
return version, update
def fetcher_is_iso(self):
return self._fetcher.is_iso()
def guess_os_from_iso(self):
ret = OSDB.guess_os_by_iso(self._fetcher.location)
if not ret:
return False
self.libosinfo_os_variant, self.libosinfo_mediaobj = ret
if (not self.libosinfo_mediaobj.get_kernel_path() or
not self.libosinfo_mediaobj.get_initrd_path()):
# This can happen if the media is live media, or just
# with incomplete libosinfo data
log.debug("libosinfo didn't report any media kernel/initrd "
"path for detected os_variant=%s",
self.libosinfo_mediaobj)
return False
return True
def guess_os_from_tree(self):
ret = OSDB.guess_os_by_tree(self._fetcher.location)
if not ret:
return False
self.libosinfo_os_variant, self.libosinfo_treeobj = ret
self.treeinfo_matched = True
return True
class _SUSEContent(object):
"""
Helper class tracking the SUSE 'content' files
"""
def __init__(self, content_str):
self.content_str = content_str
self.content_dict = {}
for line in self.content_str.splitlines():
for prefix in ["LABEL", "DISTRO", "VERSION",
"BASEARCHS", "DEFAULTBASE", "REPOID"]:
if line.startswith(prefix + " "):
self.content_dict[prefix] = line.split(" ", 1)[1]
log.debug("SUSE content dict: %s", self.content_dict)
self.tree_arch = self._get_tree_arch()
self.product_name = self._get_product_name()
self.product_version = self._get_product_version()
log.debug("SUSE content product_name=%s product_version=%s "
"tree_arch=%s", self.product_name, self.product_version,
self.tree_arch)
def _get_tree_arch(self):
# Examples:
# opensuse 11.4: BASEARCHS i586 x86_64
# opensuse 12.3: BASEARCHS i586 x86_64
# opensuse 10.3: DEFAULTBASE i586
distro_arch = (self.content_dict.get("BASEARCHS") or
self.content_dict.get("DEFAULTBASE"))
if not distro_arch and "REPOID" in self.content_dict:
distro_arch = self.content_dict["REPOID"].rsplit('/', 1)[1]
if not distro_arch:
return None
tree_arch = distro_arch.strip()
# Fix for 13.2 official oss repo
if tree_arch.find("i586-x86_64") != -1:
tree_arch = "x86_64"
return tree_arch
def _get_product_name(self):
"""
Parse the SUSE product name. Examples:
SUSE Linux Enterprise Server 11 SP4
openSUSE 11.4
"""
# Some field examples in the wild
#
# opensuse 10.3: LABEL openSUSE 10.3
# opensuse 11.4: LABEL openSUSE 11.4
# opensuse 12.3: LABEL openSUSE
# sles11sp4 DVD: LABEL SUSE Linux Enterprise Server 11 SP4
#
#
# DISTRO cpe:/o:opensuse:opensuse:13.2,openSUSE
# DISTRO cpe:/o:suse:sled:12:sp3,SUSE Linux Enterprise Desktop 12 SP3
#
# As of 2018 all latest distros match only DISTRO and REPOID.
product_name = None
if "LABEL" in self.content_dict:
product_name = self.content_dict["LABEL"]
elif "," in self.content_dict.get("DISTRO", ""):
product_name = self.content_dict["DISTRO"].rsplit(",", 1)[1]
log.debug("SUSE content product_name=%s", product_name)
return product_name
def _get_product_version(self):
# Some example fields:
#
# opensuse 10.3: VERSION 10.3
# opensuse 12.3: VERSION 12.3
# SLES-10-SP4-DVD-x86_64-GM-DVD1.iso: VERSION 10.4-0
#
# REPOID obsproduct://build.suse.de/SUSE:SLE-11-SP4:GA/SUSE_SLES/11.4/DVD/x86_64
# REPOID obsproduct://build.suse.de/SUSE:SLE-12-SP3:GA/SLES/12.3/DVD/aarch64
#
# As of 2018 all latest distros match only DISTRO and REPOID.
if not self.product_name:
return None
distro_version = self.content_dict.get("VERSION", "")
if "-" in distro_version:
distro_version = distro_version.split('-', 1)[0]
# Special case, parse version out of a line like this
# cpe:/o:opensuse:opensuse:13.2,openSUSE
if (not distro_version and
re.match("^.*:.*,openSUSE*", self.content_dict["DISTRO"])):
distro_version = self.content_dict["DISTRO"].rsplit(
",", 1)[0].strip().rsplit(":")[4]
distro_version = distro_version.strip()
if "Enterprise" in self.product_name or "SLES" in self.product_name:
sle_version = self.product_name.strip().rsplit(' ')[4]
if len(self.product_name.strip().rsplit(' ')) > 5:
sle_version = (sle_version + '.' +
self.product_name.strip().rsplit(' ')[5][2])
distro_version = sle_version
return distro_version
def getDistroStore(guest, fetcher, skip_error):
log.debug("Finding distro store for location=%s", fetcher.location)
arch = guest.os.arch
_type = guest.os.os_type
osobj = guest.osinfo
stores = _build_distro_list(osobj)
cache = _DistroCache(fetcher)
for sclass in stores:
if not sclass.is_valid(cache):
continue
store = sclass(fetcher.location, arch, _type, cache)
log.debug("Detected class=%s osvariant=%s",
store.__class__.__name__, store.get_osdict_info())
return store
if skip_error:
return None
# No distro was detected. See if the URL even resolves, and if not
# give the user a hint that maybe they mistyped. This won't always
# be true since some webservers don't allow directory listing.
# https://www.redhat.com/archives/virt-tools-list/2014-December/msg00048.html
extramsg = ""
if not fetcher.can_access():
extramsg = (": " +
_("The URL could not be accessed, maybe you mistyped?"))
raise ValueError(
_("Could not find an installable distribution at '%s'%s\n\n"
"The location must be the root directory of an install tree.\n"
"See virt-install man page for various distro examples." %
(fetcher.location, extramsg)))
##################
# Distro classes #
##################
class _DistroTree(object):
"""
Class for determining the kernel/initrd path for an install
tree (URL, ISO, or local directory)
"""
PRETTY_NAME = None
matching_distros = []
def __init__(self, location, arch, vmtype, cache):
self.type = vmtype
self.arch = arch
self.uri = location
self.cache = cache
if self.cache.libosinfo_os_variant:
self._os_variant = self.cache.libosinfo_os_variant
else:
self._os_variant = self._detect_version()
if self._os_variant and not OSDB.lookup_os(self._os_variant):
log.debug("Detected os_variant as %s, which is not "
"in osdict.",
self._os_variant)
self._os_variant = None
self._kernel_paths = []
if self.cache.treeinfo_matched:
self._kernel_paths = self.cache.get_treeinfo_media(self.type)
else:
self._set_manual_kernel_paths()
def _set_manual_kernel_paths(self):
"""
If kernel/initrd path could not be determined from a source
like treeinfo, subclasses can override this to set a list
of manual paths
"""
def _detect_version(self):
"""
Hook for subclasses to detect media os variant.
"""
log.debug("%s does not implement any osdict detection", self)
return None
##############
# Public API #
##############
@classmethod
def is_valid(cls, cache):
raise NotImplementedError
def get_kernel_paths(self):
return self._kernel_paths
def get_osdict_info(self):
"""
Return detected osdict value
"""
return self._os_variant
def get_os_media(self):
"""
Return an OsMedia wrapper around the detected libosinfo media object
"""
return self.cache.libosinfo_mediaobj
def get_os_tree(self):
"""
Return an OsTree wrapper around the detected libosinfo media object
"""
return self.cache.libosinfo_treeobj
class _FedoraDistro(_DistroTree):
PRETTY_NAME = "Fedora"
matching_distros = ["fedora"]
@classmethod
def is_valid(cls, cache):
famregex = ".*Fedora.*"
return cache.treeinfo_family_regex(famregex)
def _detect_version(self):
latest_variant = "fedora-unknown"
verstr = self.cache.treeinfo_version
if not verstr: # pragma: no cover
log.debug("No treeinfo version? Assume latest_variant=%s",
latest_variant)
return latest_variant
# rawhide trees changed to use version=Rawhide in Apr 2016
if verstr in ["development", "rawhide", "Rawhide"]:
log.debug("treeinfo version=%s, using latest_variant=%s",
verstr, latest_variant)
return latest_variant
# treeinfo version is just an integer
variant = "fedora" + verstr
if OSDB.lookup_os(variant):
return variant
log.debug( # pragma: no cover
"variant=%s from treeinfo version=%s not found, "
"using latest_variant=%s", variant, verstr, latest_variant)
return latest_variant # pragma: no cover
class _RHELDistro(_DistroTree):
PRETTY_NAME = "Red Hat Enterprise Linux"
matching_distros = ["rhel"]
_variant_prefix = "rhel"
@classmethod
def is_valid(cls, cache):
# Matches:
# Red Hat Enterprise Linux
# RHEL Atomic Host
famregex = ".*(Red Hat Enterprise Linux|RHEL).*"
return cache.treeinfo_family_regex(famregex)
def _detect_version(self):
if not self.cache.treeinfo_version:
log.debug("No treeinfo version? Not setting an os_variant")
return
version, update = self.cache.split_version()
# start with example base=rhel7, then walk backwards
# through the OS list to find the latest os name that matches
# this way we handle rhel7.6 from treeinfo when osdict only
# knows about rhel7.5
base = self._variant_prefix + str(version)
while update >= 0:
tryvar = base + ".%s" % update
if OSDB.lookup_os(tryvar):
return tryvar
update -= 1
class _CentOSDistro(_RHELDistro):
PRETTY_NAME = "CentOS"
matching_distros = ["centos"]
_variant_prefix = "centos"
@classmethod
def is_valid(cls, cache):
famregex = ".*(CentOS|Scientific).*"
return cache.treeinfo_family_regex(famregex)
class _SuseDistro(_RHELDistro):
PRETTY_NAME = None
_suse_regex = []
matching_distros = []
_variant_prefix = NotImplementedError
famregex = NotImplementedError
@classmethod
def is_valid(cls, cache):
if cache.treeinfo_family_regex(cls.famregex):
return True
if not cache.checked_for_suse_content:
cache.checked_for_suse_content = True
content_str = cache.acquire_file_content("content")
if content_str is None:
return False
try:
cache.suse_content = _SUSEContent(content_str)
except Exception as e:
log.debug("Error parsing SUSE content file: %s", str(e))
return False
if not cache.suse_content:
return False
for regex in cls._suse_regex:
if re.match(regex, cache.suse_content.product_name or ""):
return True
return False
def _set_manual_kernel_paths(self):
# We only reach here if no treeinfo was matched
tree_arch = self.cache.suse_content.tree_arch
if re.match(r'i[4-9]86', tree_arch):
tree_arch = 'i386'
oldkern = "linux"
oldinit = "initrd"
if tree_arch == "x86_64":
oldkern += "64"
oldinit += "64"
if self.type == "xen":
# Matches Opensuse > 10.2 and sles 10
self._kernel_paths.append(
("boot/%s/vmlinuz-xen" % tree_arch,
"boot/%s/initrd-xen" % tree_arch))
if str(self._os_variant).startswith(("sles11", "sled11")):
if tree_arch == "s390x":
self._kernel_paths.append(
("boot/s390x/vmrdr.ikr", "boot/s390x/initrd"))
if tree_arch == "ppc64":
self._kernel_paths.append(
("suseboot/linux64", "suseboot/initrd64"))
# Tested with SLES 12 for ppc64le, all s390x
self._kernel_paths.append(
("boot/%s/linux" % tree_arch,
"boot/%s/initrd" % tree_arch))
# Tested with Opensuse 10.0
self._kernel_paths.append(
("boot/loader/%s" % oldkern,
"boot/loader/%s" % oldinit))
# Tested with Opensuse >= 10.2, 11, and sles 10
self._kernel_paths.append(
("boot/%s/loader/linux" % tree_arch,
"boot/%s/loader/initrd" % tree_arch))
def _detect_osdict_from_suse_content(self):
if not self.cache.suse_content:
return
distro_version = self.cache.suse_content.product_version
if not distro_version:
return
version = distro_version.split('.', 1)[0].strip()
if len(version) == 8:
# Tumbleweed 8 digit date
return "opensusetumbleweed"
if int(version) < 10:
return self._variant_prefix + "9"
if str(self._variant_prefix).startswith(("sles", "sled")):
sp_version = ""
if len(distro_version.split('.', 1)) == 2:
sp_version = 'sp' + distro_version.split('.', 1)[1].strip()
return self._variant_prefix + version + sp_version
return self._variant_prefix + distro_version
def _detect_osdict_from_url(self):
root = "opensuse"
oses = [n for n in OSDB.list_os() if n.name.startswith(root)]
for osobj in oses:
codename = osobj.name[len(root):]
if re.search("/%s/" % codename, self.uri):
return osobj.name
def _detect_from_treeinfo(self):
if not self.cache.treeinfo_name:
return
if re.search("openSUSE Tumbleweed", self.cache.treeinfo_name):
return "opensusetumbleweed"
version, update = self.cache.split_version()
base = self._variant_prefix + str(version)
while update >= 0:
tryvar = base
# SLE doesn't use '.0' for initial releases in
# osinfo-db (sles11, sles12, etc)
if update > 0 or not base.startswith('sle'):
tryvar += ".%s" % update
if OSDB.lookup_os(tryvar):
return tryvar
update -= 1
def _detect_version(self):
var = self._detect_from_treeinfo()
if not var:
var = self._detect_osdict_from_url()
if not var:
var = self._detect_osdict_from_suse_content()
return var
class _SLESDistro(_SuseDistro):
PRETTY_NAME = "SLES"
matching_distros = ["sles"]
_variant_prefix = "sles"
_suse_regex = [".*SUSE Linux Enterprise Server*", ".*SUSE SLES*"]
famregex = ".*SUSE Linux Enterprise.*"
class _SLEDDistro(_SuseDistro):
PRETTY_NAME = "SLED"
matching_distros = ["sled"]
_variant_prefix = "sled"
_suse_regex = [".*SUSE Linux Enterprise Desktop*"]
famregex = ".*SUSE Linux Enterprise.*"
class _OpensuseDistro(_SuseDistro):
PRETTY_NAME = "openSUSE"
matching_distros = ["opensuse"]
_variant_prefix = "opensuse"
_suse_regex = [".*openSUSE.*"]
famregex = ".*openSUSE.*"
class _DebianDistro(_DistroTree):
# ex. http://ftp.egr.msu.edu/debian/dists/sarge/main/installer-i386/
# daily builds: https://d-i.debian.org/daily-images/amd64/
PRETTY_NAME = "Debian"
matching_distros = ["debian"]
_debname = "debian"
@classmethod
def is_valid(cls, cache):
def check_manifest(mfile):
is_ubuntu = cls._debname == "ubuntu"
if cache.content_regex(mfile, ".*[Uu]buntu.*"):
return is_ubuntu
return cache.content_regex(mfile, ".*[Dd]ebian.*")
media_type = None
if check_manifest("current/images/MANIFEST"):
media_type = "url"
elif check_manifest("daily/MANIFEST"):
media_type = "daily"
elif cache.content_regex(".disk/info",
"%s.*" % cls._debname.capitalize()):
# There's two cases here:
# 1) Direct access ISO, attached as CDROM afterwards. We
# use one set of kernels in that case which seem to
# assume the prescence of CDROM media
# 2) ISO mounted and exported over URL. We use a different
# set of kernels that expect to boot from the network
if cache.fetcher_is_iso():
media_type = "disk"
else:
media_type = "mounted_iso_url"
if media_type:
cache.debian_media_type = media_type
return bool(media_type)
def _set_manual_kernel_paths(self):
if self.cache.debian_media_type == "disk":
self._set_installcd_paths()
else:
self._set_url_paths()
def _find_treearch(self):
for pattern in [r"^.*/installer-(\w+)/?$",
r"^.*/daily-images/(\w+)/?$"]:
arch = re.findall(pattern, self.uri)
if not arch:
continue
log.debug("Found pattern=%s treearch=%s in uri",
pattern, arch[0])
return arch[0]
# Check for standard arch strings which will be
# in the URI name for --location $ISO mounts
for arch in ["i386", "amd64", "x86_64", "arm64"]:
if arch in self.uri:
log.debug("Found treearch=%s in uri", arch)
if arch == "x86_64":
arch = "amd64"
return arch
# Otherwise default to i386
arch = "i386"
log.debug("No treearch found in uri, defaulting to arch=%s", arch)
return arch
def _set_url_paths(self):
url_prefix = "current/images"
if self.cache.debian_media_type == "daily":
url_prefix = "daily"
elif self.cache.debian_media_type == "mounted_iso_url":
url_prefix = "install"
tree_arch = self._find_treearch()
hvmroot = "%s/netboot/%s-installer/%s/" % (url_prefix,
self._debname, tree_arch)
initrd_basename = "initrd.gz"
kernel_basename = "linux"
if tree_arch in ["ppc64el"]:
kernel_basename = "vmlinux"
if tree_arch == "s390x":
hvmroot = "%s/generic/" % url_prefix
kernel_basename = "kernel.%s" % self._debname
initrd_basename = "initrd.%s" % self._debname
if self.type == "xen":
xenroot = "%s/netboot/xen/" % url_prefix
self._kernel_paths.append(
(xenroot + "vmlinuz", xenroot + "initrd.gz"))
self._kernel_paths.append(
(hvmroot + kernel_basename, hvmroot + initrd_basename))
def _set_installcd_paths(self):
if self._debname == "ubuntu":
if not self.arch == "s390x":
kpair = ("install/vmlinuz", "install/initrd.gz")
else:
kpair = ("boot/kernel.ubuntu", "boot/initrd.ubuntu")
elif self.arch == "x86_64":
kpair = ("install.amd/vmlinuz", "install.amd/initrd.gz")
elif self.arch == "i686":
kpair = ("install.386/vmlinuz", "install.386/initrd.gz")
elif self.arch == "aarch64":
kpair = ("install.a64/vmlinuz", "install.a64/initrd.gz")
elif self.arch == "ppc64le":
kpair = ("install/vmlinux", "install/initrd.gz")
elif self.arch == "s390x":
kpair = ("boot/linux_vm", "boot/root.bin")
else:
kpair = ("install/vmlinuz", "install/initrd.gz")
self._kernel_paths += [kpair]
return True
def _detect_version(self):
oses = [n for n in OSDB.list_os() if n.name.startswith(self._debname)]
if self.cache.debian_media_type == "daily":
log.debug("Appears to be debian 'daily' URL, using latest "
"debian OS")
return oses[0].name
for osobj in oses:
if osobj.codename:
# Ubuntu codenames look like 'Warty Warthog'
codename = osobj.codename.split()[0].lower()
else:
if " " not in osobj.label:
continue
# Debian labels look like 'Debian Sarge'
codename = osobj.label.split()[1].lower()
if ("/%s/" % codename) in self.uri:
log.debug("Found codename=%s in the URL string", codename)
return osobj.name
class _UbuntuDistro(_DebianDistro):
# https://archive.ubuntu.com/ubuntu/dists/natty/main/installer-amd64/
PRETTY_NAME = "Ubuntu"
matching_distros = ["ubuntu"]
_debname = "ubuntu"
class _MageiaDistro(_DistroTree):
# https://distro.ibiblio.org/mageia/distrib/cauldron/x86_64/
PRETTY_NAME = "Mageia"
matching_distros = ["mageia"]
@classmethod
def is_valid(cls, cache):
return cache.content_regex("VERSION", ".*Mageia.*")
def _set_manual_kernel_paths(self):
self._kernel_paths += [
("isolinux/%s/vmlinuz" % self.arch,
"isolinux/%s/all.rdz" % self.arch)]
class _GenericTreeinfoDistro(_DistroTree):
"""
Generic catchall class for .treeinfo using distros
"""
PRETTY_NAME = "Generic Treeinfo"
matching_distros = []
@classmethod
def is_valid(cls, cache):
if cache.treeinfo:
cache.treeinfo_matched = True
return True
return False
class _LibosinfoDistro(_DistroTree):
"""
For ISO media detection that was fully handled by libosinfo
"""
PRETTY_NAME = "Libosinfo detected"
matching_distros = []
@classmethod
def is_valid(cls, cache):
if cache.fetcher_is_iso():
return cache.guess_os_from_iso()
return cache.guess_os_from_tree()
def _set_manual_kernel_paths(self):
self._kernel_paths += [
(self.cache.libosinfo_mediaobj.get_kernel_path(),
self.cache.libosinfo_mediaobj.get_initrd_path())
]
def _build_distro_list(osobj):
allstores = [
# Libosinfo takes priority
_LibosinfoDistro,
_FedoraDistro,
_RHELDistro,
_CentOSDistro,
_SLESDistro,
_SLEDDistro,
_OpensuseDistro,
_DebianDistro,
_UbuntuDistro,
_MageiaDistro,
# Always stick GenericDistro at the end, since it's a catchall
_GenericTreeinfoDistro,
]
# If user manually specified an os_distro, bump its URL class
# to the top of the list
if osobj.distro:
log.debug("variant=%s has distro=%s, looking for matching "
"distro store to prioritize",
osobj.name, osobj.distro)
found_store = None
for store in allstores:
if osobj.distro in store.matching_distros:
found_store = store
if found_store:
log.debug("Prioritizing distro store=%s", found_store)
allstores.remove(found_store)
allstores.insert(0, found_store)
else:
log.debug("No matching store found, not prioritizing anything")
import os
force_libosinfo = os.environ.get("VIRTINST_TEST_SUITE_FORCE_LIBOSINFO")
if force_libosinfo:
if bool(int(force_libosinfo)):
allstores = [_LibosinfoDistro]
else:
allstores.remove(_LibosinfoDistro)
return allstores