# # Represents OS distribution specific install data # # Copyright 2006-2007, 2013 Red Hat, Inc. # Daniel P. Berrange # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, # MA 02110-1301 USA. import ConfigParser import ftplib import logging import os import re import stat import subprocess import tempfile import urllib2 import urlparse import urlgrabber.grabber as grabber from virtinst import osdict ######################################################################### # Backends for the various URL types we support (http, ftp, nfs, local) # ######################################################################### class _ImageFetcher(object): """ This is a generic base class for fetching/extracting files from a media source, such as CD ISO, NFS server, or HTTP/FTP server """ def __init__(self, location, scratchdir, meter): self.location = location self.scratchdir = scratchdir self.meter = meter self.srcdir = None logging.debug("Using scratchdir=%s", scratchdir) def _make_path(self, filename): path = self.srcdir or self.location if filename: if not path.endswith("/"): path += "/" path += filename return path def saveTemp(self, fileobj, prefix): if not os.path.exists(self.scratchdir): os.makedirs(self.scratchdir, 0750) prefix = "virtinst-" + prefix if "VIRTINST_TEST_SUITE" in os.environ: fn = os.path.join(".", prefix) fd = os.open(fn, os.O_RDWR | os.O_CREAT, 0640) else: (fd, fn) = tempfile.mkstemp(prefix=prefix, dir=self.scratchdir) block_size = 16384 try: while 1: buff = fileobj.read(block_size) if not buff: break os.write(fd, buff) finally: os.close(fd) return fn def prepareLocation(self): pass def cleanupLocation(self): pass def acquireFile(self, filename): # URLGrabber works for all network and local cases f = None try: path = self._make_path(filename) base = os.path.basename(filename) logging.debug("Fetching URI: %s", path) try: f = grabber.urlopen(path, progress_obj=self.meter, text=_("Retrieving file %s...") % base) except Exception, e: raise ValueError(_("Couldn't acquire file %s: %s") % (path, str(e))) tmpname = self.saveTemp(f, prefix=base + ".") logging.debug("Saved file to " + tmpname) return tmpname finally: if f: f.close() def hasFile(self, src): raise NotImplementedError("Must be implemented in subclass") class _URIImageFetcher(_ImageFetcher): """ Base class for downloading from FTP / HTTP """ def hasFile(self, filename): raise NotImplementedError def prepareLocation(self): if not self.hasFile(""): raise ValueError(_("Opening URL %s failed.") % (self.location)) class _HTTPImageFetcher(_URIImageFetcher): def hasFile(self, filename): try: path = self._make_path(filename) request = urllib2.Request(path) request.get_method = lambda: "HEAD" urllib2.urlopen(request) except Exception, e: logging.debug("HTTP hasFile: didn't find %s: %s", path, str(e)) return False return True class _FTPImageFetcher(_URIImageFetcher): ftp = None def prepareLocation(self): if self.ftp: return try: url = urlparse.urlparse(self._make_path("")) if not url[1]: raise ValueError(_("Invalid install location")) self.ftp = ftplib.FTP(url[1]) self.ftp.login() except Exception, e: raise ValueError(_("Opening URL %s failed: %s.") % (self.location, str(e))) def cleanupLocation(self): if not self.ftp: return try: self.ftp.quit() except: logging.debug("Error quitting ftp connection", exc_info=True) def hasFile(self, filename): path = self._make_path(filename) url = urlparse.urlparse(path) try: try: # If it's a file self.ftp.size(url[2]) except ftplib.all_errors: # If it's a dir self.ftp.cwd(url[2]) except ftplib.all_errors, e: logging.debug("FTP hasFile: couldn't access %s: %s", path, str(e)) return False return True class _LocalImageFetcher(_ImageFetcher): def hasFile(self, filename): src = self._make_path(filename) if os.path.exists(src): return True else: logging.debug("local hasFile: Couldn't find %s", src) return False class _MountedImageFetcher(_LocalImageFetcher): """ Fetcher capable of extracting files from a NFS server or loopback mounted file, or local CDROM device """ _in_test_suite = bool("VIRTINST_TEST_SUITE" in os.environ) _mounted = False def prepareLocation(self): if self._mounted: return if self._in_test_suite: self.srcdir = os.environ["VIRTINST_TEST_URL_DIR"] else: self.srcdir = tempfile.mkdtemp(prefix="virtinstmnt.", dir=self.scratchdir) mountcmd = "/bin/mount" logging.debug("Preparing mount at " + self.srcdir) if self.location.startswith("nfs:"): cmd = [mountcmd, "-o", "ro", self.location[4:], self.srcdir] else: if stat.S_ISBLK(os.stat(self.location)[stat.ST_MODE]): mountopt = "ro" else: mountopt = "ro,loop" cmd = [mountcmd, "-o", mountopt, self.location, self.srcdir] logging.debug("mount cmd: %s", cmd) if not self._in_test_suite: ret = subprocess.call(cmd) if ret != 0: self.cleanupLocation() raise ValueError(_("Mounting location '%s' failed") % (self.location)) self._mounted = True def cleanupLocation(self): if not self._mounted: return logging.debug("Cleaning up mount at " + self.srcdir) try: if not self._in_test_suite: cmd = ["/bin/umount", self.srcdir] subprocess.call(cmd) try: os.rmdir(self.srcdir) except: pass finally: self._mounted = False class _DirectImageFetcher(_LocalImageFetcher): def prepareLocation(self): self.srcdir = self.location def fetcherForURI(uri, *args, **kwargs): if uri.startswith("http://") or uri.startswith("https://"): fclass = _HTTPImageFetcher elif uri.startswith("ftp://"): fclass = _FTPImageFetcher elif uri.startswith("nfs:"): fclass = _MountedImageFetcher else: if os.path.isdir(uri): fclass = _DirectImageFetcher else: fclass = _MountedImageFetcher return fclass(uri, *args, **kwargs) ############################################### # Helpers for detecting distro from given URL # ############################################### def _distroFromTreeinfo(fetcher, arch, vmtype=None): """ Parse treeinfo 'family' field, and return the associated Distro class None if no treeinfo, GenericDistro if unknown family type. """ if not fetcher.hasFile(".treeinfo"): return None tmptreeinfo = fetcher.acquireFile(".treeinfo") try: treeinfo = ConfigParser.SafeConfigParser() treeinfo.read(tmptreeinfo) finally: os.unlink(tmptreeinfo) try: fam = treeinfo.get("general", "family") except ConfigParser.NoSectionError: return None if re.match(".*Fedora.*", fam): dclass = FedoraDistro elif re.match(".*CentOS.*", fam): dclass = CentOSDistro elif re.match(".*Red Hat Enterprise Linux.*", fam): dclass = RHELDistro elif re.match(".*Scientific Linux.*", fam): dclass = SLDistro else: dclass = GenericDistro ob = dclass(fetcher, arch, vmtype) ob.treeinfo = treeinfo # Explicitly call this, so we populate variant info ob.isValidStore() return ob def getDistroStore(guest, fetcher): stores = [] logging.debug("Finding distro store for location=%s", fetcher.location) arch = guest.os.arch _type = guest.os.os_type urldistro = None if guest.os_variant: urldistro = osdict.lookup_os(guest.os_variant).urldistro dist = _distroFromTreeinfo(fetcher, arch, _type) if dist: return dist stores = _allstores[:] # If user manually specified an os_distro, bump it's URL class # to the top of the list if urldistro: for store in stores: if store.urldistro == urldistro: logging.debug("Prioritizing distro store=%s", store) stores.remove(store) stores.insert(0, store) break # Always stick GenericDistro at the end, since it's a catchall stores.remove(GenericDistro) stores.append(GenericDistro) for sclass in stores: store = sclass(fetcher, arch, _type) # We already tried the treeinfo short circuit, so skip it here store.uses_treeinfo = False if store.isValidStore(): logging.debug("Detected distro name=%s osvariant=%s", store.name, store.os_variant) return store raise ValueError( _("Could not find an installable distribution at '%s'\n" "The location must be the root directory of an install tree.\n" "See virt-install man page for various distro examples." % fetcher.location)) ################## # Distro classes # ################## class Distro(object): """ An image store is a base class for retrieving either a bootable ISO image, or a kernel+initrd pair for a particular OS distribution """ name = None urldistro = None # osdict variant value os_variant = None _boot_iso_paths = [] _hvm_kernel_paths = [] _xen_kernel_paths = [] uses_treeinfo = False def __init__(self, fetcher, arch, vmtype): self.fetcher = fetcher self.type = vmtype self.arch = arch self.uri = fetcher.location self.treeinfo = None def isValidStore(self): """Determine if uri points to a tree of the store's distro""" raise NotImplementedError def acquireKernel(self, guest): kernelpath = None initrdpath = None if self._hasTreeinfo(): try: kernelpath = self._getTreeinfoMedia("kernel") initrdpath = self._getTreeinfoMedia("initrd") except ConfigParser.NoSectionError: pass if not kernelpath or not initrdpath: # fall back to old code if self.type is None or self.type == "hvm": paths = self._hvm_kernel_paths else: paths = self._xen_kernel_paths for kpath, ipath in paths: if self.fetcher.hasFile(kpath) and self.fetcher.hasFile(ipath): kernelpath = kpath initrdpath = ipath if not kernelpath or not initrdpath: raise RuntimeError(_("Couldn't find %(type)s kernel for " "%(distro)s tree.") % {"distro": self.name, "type" : self.type}) return self._kernelFetchHelper(guest, kernelpath, initrdpath) def acquireBootDisk(self, guest): ignore = guest if self._hasTreeinfo(): return self.fetcher.acquireFile(self._getTreeinfoMedia("boot.iso")) else: for path in self._boot_iso_paths: if self.fetcher.hasFile(path): return self.fetcher.acquireFile(path) raise RuntimeError(_("Could not find boot.iso in %s tree." % self.name)) def _check_osvariant_valid(self, os_variant): return osdict.lookup_os(os_variant) is not None def get_osdict_info(self): """ Return (distro, variant) tuple, checking to make sure they are valid osdict entries """ if not self.os_variant: return None if not self._check_osvariant_valid(self.os_variant): logging.debug("%s set os_variant to %s, which is not in osdict.", self, self.os_variant) return None return self.os_variant def _get_method_arg(self): return "method" def _hasTreeinfo(self): # all Red Hat based distros should have .treeinfo, perhaps others # will in time if not (self.treeinfo is None): return True if not self.uses_treeinfo or not self.fetcher.hasFile(".treeinfo"): return False logging.debug("Detected .treeinfo file") tmptreeinfo = self.fetcher.acquireFile(".treeinfo") try: self.treeinfo = ConfigParser.SafeConfigParser() self.treeinfo.read(tmptreeinfo) finally: os.unlink(tmptreeinfo) return True def _getTreeinfoMedia(self, mediaName): if self.type == "xen": t = "xen" else: t = self.treeinfo.get("general", "arch") return self.treeinfo.get("images-%s" % t, mediaName) def _fetchAndMatchRegex(self, filename, regex): # Fetch 'filename' and return True/False if it matches the regex local_file = None try: try: local_file = self.fetcher.acquireFile(filename) except: return False f = open(local_file, "r") try: while 1: buf = f.readline() if not buf: break if re.match(regex, buf): return True finally: f.close() finally: if local_file is not None: os.unlink(local_file) return False def _kernelFetchHelper(self, guest, kernelpath, initrdpath): # Simple helper for fetching kernel + initrd and performing # cleanup if necessary kernel = self.fetcher.acquireFile(kernelpath) args = '' if not self.fetcher.location.startswith("/"): args += "%s=%s" % (self._get_method_arg(), self.fetcher.location) if guest.installer.extraargs: args += " " + guest.installer.extraargs try: initrd = self.fetcher.acquireFile(initrdpath) return kernel, initrd, args except: os.unlink(kernel) raise class GenericDistro(Distro): """ Generic distro store. Check well known paths for kernel locations as a last resort if we can't recognize any actual distro """ name = "Generic" os_variant = "linux" uses_treeinfo = True _xen_paths = [("images/xen/vmlinuz", "images/xen/initrd.img"), # Fedora ] _hvm_paths = [("images/pxeboot/vmlinuz", "images/pxeboot/initrd.img"), # Fedora ] _iso_paths = ["images/boot.iso", # RH/Fedora "boot/boot.iso", # Suse "current/images/netboot/mini.iso", # Debian "install/images/boot.iso", # Mandriva ] # Holds values to use when actually pulling down media _valid_kernel_path = None _valid_iso_path = None def isValidStore(self): if self._hasTreeinfo(): # Use treeinfo to pull down media paths if self.type == "xen": typ = "xen" else: typ = self.treeinfo.get("general", "arch") kernelSection = "images-%s" % typ isoSection = "images-%s" % self.treeinfo.get("general", "arch") if self.treeinfo.has_section(kernelSection): try: self._valid_kernel_path = ( self._getTreeinfoMedia("kernel"), self._getTreeinfoMedia("initrd")) except (ConfigParser.NoSectionError, ConfigParser.NoOptionError), e: logging.debug(e) if self.treeinfo.has_section(isoSection): try: self._valid_iso_path = self.treeinfo.get(isoSection, "boot.iso") except ConfigParser.NoOptionError, e: logging.debug(e) if self.type == "xen": kern_list = self._xen_paths else: kern_list = self._hvm_paths # If validated media paths weren't found (no treeinfo), check against # list of media location paths. for kern, init in kern_list: if (self._valid_kernel_path is None and self.fetcher.hasFile(kern) and self.fetcher.hasFile(init)): self._valid_kernel_path = (kern, init) break for iso in self._iso_paths: if (self._valid_iso_path is None and self.fetcher.hasFile(iso)): self._valid_iso_path = iso break if self._valid_kernel_path or self._valid_iso_path: return True return False def acquireKernel(self, guest): if self._valid_kernel_path is None: raise ValueError(_("Could not find a kernel path for virt type " "'%s'" % self.type)) return self._kernelFetchHelper(guest, self._valid_kernel_path[0], self._valid_kernel_path[1]) def acquireBootDisk(self, guest): if self._valid_iso_path is None: raise ValueError(_("Could not find a boot iso path for this tree.")) return self.fetcher.acquireFile(self._valid_iso_path) class RedHatDistro(Distro): """ Base image store for any Red Hat related distros which have a common layout """ os_variant = "linux" _version_number = None uses_treeinfo = True _boot_iso_paths = ["images/boot.iso"] _hvm_kernel_paths = [("images/pxeboot/vmlinuz", "images/pxeboot/initrd.img")] _xen_kernel_paths = [("images/xen/vmlinuz", "images/xen/initrd.img")] def isValidStore(self): raise NotImplementedError() def _get_method_arg(self): if (self._version_number is not None and ((self.urldistro is "rhel" and self._version_number >= 7) or (self.urldistro is "fedora" and self._version_number >= 19))): return "inst.repo" return "method" # Fedora distro check class FedoraDistro(RedHatDistro): name = "Fedora" urldistro = "fedora" def _latestFedoraVariant(self): """ Search osdict list, find newest fedora version listed """ ret = None for osinfo in osdict.list_os(typename="linux"): if osinfo.name.startswith("fedora") and "unknown" not in osinfo.name: # First fedora* occurence should be the newest ret = osinfo.name break return ret, int(ret[6:]) def isValidStore(self): if not self._hasTreeinfo(): return self.fetcher.hasFile("Fedora") if not re.match(".*Fedora.*", self.treeinfo.get("general", "family")): return False lateststr, latestnum = self._latestFedoraVariant() ver = self.treeinfo.get("general", "version") if not ver: return False if ver == "development" or ver == "rawhide": self._version_number = latestnum self.os_variant = lateststr return if "_" in ver: ver = ver.split("_")[0] vernum = int(str(ver).split("-")[0]) if vernum > latestnum: self.os_variant = lateststr else: self.os_variant = "fedora" + str(vernum) self._version_number = vernum return True # Red Hat Enterprise Linux distro check class RHELDistro(RedHatDistro): name = "Red Hat Enterprise Linux" urldistro = "rhel" def isValidStore(self): if self._hasTreeinfo(): m = re.match(".*Red Hat Enterprise Linux.*", self.treeinfo.get("general", "family")) ret = (m is not None) if ret: self._variantFromVersion() return ret if (self.fetcher.hasFile("Server") or self.fetcher.hasFile("Client")): self.os_variant = "rhel5" return True return self.fetcher.hasFile("RedHat") ################################ # osdict autodetection helpers # ################################ def _parseTreeinfoVersion(self, verstr): def _safeint(c): try: val = int(c) except: val = 0 return val version = _safeint(verstr[0]) update = 0 # RHEL has version=5.4, scientific linux=54 updinfo = verstr.split(".") if len(updinfo) > 1: update = _safeint(updinfo[1]) elif len(verstr) > 1: update = _safeint(verstr[1]) return version, update def _variantFromVersion(self): ver = self.treeinfo.get("general", "version") if not ver: return version, update = self._parseTreeinfoVersion(ver) self._version_number = version self._setRHELVariant(version, update) def _setRHELVariant(self, version, update): base = "rhel" + str(version) if update < 0: update = 0 ret = None while update >= 0: tryvar = base + ".%s" % update if not self._check_osvariant_valid(tryvar): update -= 1 continue ret = tryvar break if not ret: # Try plain rhel5, rhel6, whatev if self._check_osvariant_valid(base): ret = base if ret: self.os_variant = ret # CentOS distro check class CentOSDistro(RHELDistro): name = "CentOS" urldistro = None def isValidStore(self): if not self._hasTreeinfo(): return self.fetcher.hasFile("CentOS") m = re.match(".*CentOS.*", self.treeinfo.get("general", "family")) ret = (m is not None) if ret: self._variantFromVersion() return ret # Scientific Linux distro check class SLDistro(RHELDistro): name = "Scientific Linux" urldistro = None _boot_iso_paths = RHELDistro._boot_iso_paths + ["images/SL/boot.iso"] _hvm_kernel_paths = RHELDistro._hvm_kernel_paths + [ ("images/SL/pxeboot/vmlinuz", "images/SL/pxeboot/initrd.img")] def isValidStore(self): if self._hasTreeinfo(): m = re.match(".*Scientific Linux.*", self.treeinfo.get("general", "family")) ret = (m is not None) if ret: self._variantFromVersion() return ret return self.fetcher.hasFile("SL") class SuseDistro(Distro): name = "SUSE" urldistro = "suse" os_variant = "linux" _boot_iso_paths = ["boot/boot.iso"] def __init__(self, *args, **kwargs): Distro.__init__(self, *args, **kwargs) if re.match(r'i[4-9]86', self.arch): self.arch = 'i386' # Tested with Opensuse >= 10.2, 11, and sles 10 self._hvm_kernel_paths = [("boot/%s/loader/linux" % self.arch, "boot/%s/loader/initrd" % self.arch)] # Matches Opensuse > 10.2 and sles 10 self._xen_kernel_paths = [("boot/%s/vmlinuz-xen" % self.arch, "boot/%s/initrd-xen" % self.arch)] def isValidStore(self): if not self.fetcher.hasFile("directory.yast"): return False self.os_variant = self._detect_osdict_from_url() return True def _get_method_arg(self): return "install" ################################ # osdict autodetection helpers # ################################ def _detect_osdict_from_url(self): root = "opensuse" oses = [n for n in osdict.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 return self.os_variant class DebianDistro(Distro): # ex. http://ftp.egr.msu.edu/debian/dists/sarge/main/installer-i386/ # daily builds: http://d-i.debian.org/daily-images/amd64/ name = "Debian" urldistro = "debian" os_variant = "linux" def __init__(self, *args, **kwargs): Distro.__init__(self, *args, **kwargs) if self.uri.count("i386"): self._treeArch = "i386" elif self.uri.count("amd64"): self._treeArch = "amd64" else: self._treeArch = "i386" if re.match(r'i[4-9]86', self.arch): self.arch = 'i386' self._installer_name = self.name.lower() + "-" + "installer" self._prefix = 'current/images' self._set_media_paths() def _set_media_paths(self): # Use self._prefix to set media paths self._boot_iso_paths = ["%s/netboot/mini.iso" % self._prefix] hvmroot = "%s/netboot/%s/%s/" % (self._prefix, self._installer_name, self._treeArch) xenroot = "%s/netboot/xen/" % self._prefix self._hvm_kernel_paths = [(hvmroot + "linux", hvmroot + "initrd.gz")] self._xen_kernel_paths = [(xenroot + "vmlinuz", xenroot + "initrd.gz")] def isValidStore(self): if self.fetcher.hasFile("%s/MANIFEST" % self._prefix): # For regular trees pass elif self.fetcher.hasFile("daily/MANIFEST"): # For daily trees self._prefix = "daily" self._set_media_paths() else: return False filename = "%s/MANIFEST" % self._prefix regex = ".*%s.*" % self._installer_name if not self._fetchAndMatchRegex(filename, regex): logging.debug("Regex didn't match, not a %s distro", self.name) return False self.os_variant = self._detect_osdict_from_url() return True ################################ # osdict autodetection helpers # ################################ def _detect_osdict_from_url(self): root = self.name.lower() oses = [n for n in osdict.list_os() if n.name.startswith(root)] if self._prefix == "daily": return oses[0].name for osobj in oses: # name looks like 'Debian Sarge' if " " not in osobj.label: continue codename = osobj.label.lower().split()[1] if ("/%s/" % codename) in self.uri: return osobj.name return self.os_variant class UbuntuDistro(DebianDistro): # http://archive.ubuntu.com/ubuntu/dists/natty/main/installer-amd64/ name = "Ubuntu" urldistro = "ubuntu" def isValidStore(self): if self.fetcher.hasFile("%s/MANIFEST" % self._prefix): # For regular trees filename = "%s/MANIFEST" % self._prefix regex = ".*%s.*" % self._installer_name elif self.fetcher.hasFile("install/netboot/version.info"): # For trees based on ISO's self._prefix = "install" self._set_media_paths() filename = "%s/netboot/version.info" % self._prefix regex = "%s*" % self.name else: return False if not self._fetchAndMatchRegex(filename, regex): logging.debug("Regex didn't match, not a %s distro", self.name) return False self.os_variant = self._detect_osdict_from_url() return True class MandrivaDistro(Distro): # ftp://ftp.uwsg.indiana.edu/linux/mandrake/official/2007.1/x86_64/ name = "Mandriva/Mageia" urldistro = "mandriva" os_variant = "linux" _boot_iso_paths = ["install/images/boot.iso"] # Kernels for HVM: valid for releases 2007.1, 2008.*, 2009.0 _hvm_kernel_paths = [("isolinux/alt0/vmlinuz", "isolinux/alt0/all.rdz")] _xen_kernel_paths = [] def isValidStore(self): # Don't support any paravirt installs if self.type is not None and self.type != "hvm": return False # Mandriva websites / media appear to have a VERSION # file in top level which we can use as our 'magic' # check for validity if not self.fetcher.hasFile("VERSION"): return False for name in ["Mandriva", "Mageia"]: if self._fetchAndMatchRegex("VERSION", ".*%s.*" % name): return True logging.debug("Regex didn't match, not a %s distro", self.name) return False class ALTLinuxDistro(Distro): # altlinux doesn't have installable URLs, so this is just for a # mounted ISO name = "ALT Linux" urldistro = "altlinux" os_variant = "linux" _boot_iso_paths = [("altinst", "live")] _hvm_kernel_paths = [("syslinux/alt0/vmlinuz", "syslinux/alt0/full.cz")] _xen_kernel_paths = [] def isValidStore(self): # Don't support any paravirt installs if self.type is not None and self.type != "hvm": return False if not self.fetcher.hasFile(".disk/info"): return False if self._fetchAndMatchRegex(".disk/info", ".*%s.*" % self.name): return True logging.debug("Regex didn't match, not a %s distro", self.name) return False # Build list of all *Distro classes def _build_distro_list(): allstores = [] for obj in globals().values(): if type(obj) is type and issubclass(obj, Distro) and obj.name: allstores.append(obj) seen_urldistro = [] for obj in allstores: if obj.urldistro and obj.urldistro in seen_urldistro: raise RuntimeError("programming error: duplicate urldistro=%s" % obj.urldistro) seen_urldistro.append(obj.urldistro) return allstores _allstores = _build_distro_list()