qubes-installer-qubes-os/storage/iscsi.py

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#
# iscsi.py - iscsi class
#
# Copyright (C) 2005, 2006 IBM, Inc. All rights reserved.
# Copyright (C) 2006 Red Hat, Inc. All rights reserved.
#
# 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, see <http://www.gnu.org/licenses/>.
#
from constants import *
from udev import *
import os
import iutil
from flags import flags
import logging
import shutil
import time
import hashlib
import random
log = logging.getLogger("anaconda")
import gettext
_ = lambda x: gettext.ldgettext("anaconda", x)
has_libiscsi = True
try:
import libiscsi
except ImportError:
has_libiscsi = False
# Note that stage2 copies all files under /sbin to /usr/sbin
ISCSID=""
INITIATOR_FILE="/etc/iscsi/initiatorname.iscsi"
def find_iscsi_files():
global ISCSID
if ISCSID == "":
for dir in ("/usr/sbin", "/tmp/updates", "/mnt/source/RHupdates"):
path="%s/iscsid" % (dir,)
if os.access(path, os.X_OK):
ISCSID=path
def has_iscsi():
find_iscsi_files()
if ISCSID == "" or not has_libiscsi:
return False
log.info("ISCSID is %s" % (ISCSID,))
# make sure the module is loaded
if not os.access("/sys/module/iscsi_tcp", os.X_OK):
return False
return True
def randomIname():
"""Generate a random initiator name the same way as iscsi-iname"""
s = "iqn.1994-05.com.fedora:01."
m = hashlib.md5()
u = os.uname()
for i in u:
m.update(i)
dig = m.hexdigest()
for i in range(0, 6):
s += dig[random.randrange(0, 32)]
return s
def stabilize(intf = None):
# Wait for udev to create the devices for the just added disks
if intf:
w = intf.waitWindow(_("Scanning iSCSI nodes"),
_("Scanning iSCSI nodes"))
# It is possible when we get here the events for the new devices
# are not send yet, so sleep to make sure the events are fired
time.sleep(2)
udev_settle()
if intf:
w.pop()
class iscsi(object):
""" iSCSI utility class.
This class will automatically discover and login to iBFT (or
other firmware) configured iscsi devices when the startup() method
gets called. It can also be used to manually configure iscsi devices
through the addTarget() method.
As this class needs to make sure certain things like starting iscsid
and logging in to firmware discovered disks only happens once
and as it keeps a global list of all iSCSI devices it is implemented as
a Singleton.
"""
def __init__(self):
# This list contains all nodes
self.nodes = []
# This list contains nodes discovered through iBFT (or other firmware)
self.ibftNodes = []
self._initiator = ""
self.initiatorSet = False
self.started = False
if flags.ibft:
try:
initiatorname = libiscsi.get_firmware_initiator_name()
self._initiator = initiatorname
self.initiatorSet = True
except:
pass
# So that users can write iscsi() to get the singleton instance
def __call__(self):
return self
def _getInitiator(self):
if self._initiator != "":
return self._initiator
return randomIname()
def _setInitiator(self, val):
if self.initiatorSet and val != self._initiator:
raise ValueError, "Unable to change iSCSI initiator name once set"
if len(val) == 0:
raise ValueError, "Must provide a non-zero length string"
self._initiator = val
initiator = property(_getInitiator, _setInitiator)
def _startIBFT(self, intf = None):
if not flags.ibft:
return
try:
found_nodes = libiscsi.discover_firmware()
except:
# an exception here means there is no ibft firmware, just return
return
for node in found_nodes:
try:
node.login()
self.nodes.append(node)
self.ibftNodes.append(node)
except IOError, e:
log.error("Could not log into ibft iscsi target %s: %s" %
(node.name, str(e)))
pass
stabilize(intf)
def startup(self, intf = None):
if self.started:
return
if not has_iscsi():
return
if self._initiator == "":
log.info("no initiator set")
return
if intf:
w = intf.waitWindow(_("Initializing iSCSI initiator"),
_("Initializing iSCSI initiator"))
log.debug("Setting up %s" % (INITIATOR_FILE, ))
log.info("iSCSI initiator name %s", self.initiator)
if os.path.exists(INITIATOR_FILE):
os.unlink(INITIATOR_FILE)
if not os.path.isdir("/etc/iscsi"):
os.makedirs("/etc/iscsi", 0755)
fd = os.open(INITIATOR_FILE, os.O_RDWR | os.O_CREAT)
os.write(fd, "InitiatorName=%s\n" %(self.initiator))
os.close(fd)
self.initiatorSet = True
for dir in ['ifaces','isns','nodes','send_targets','slp','static']:
fulldir = "/var/lib/iscsi/%s" % (dir,)
if not os.path.isdir(fulldir):
os.makedirs(fulldir, 0755)
log.info("iSCSI startup")
iutil.execWithRedirect(ISCSID, [],
stdout="/dev/tty5", stderr="/dev/tty5")
time.sleep(1)
if intf:
w.pop()
self._startIBFT(intf)
self.started = True
def addTarget(self, ipaddr, port="3260", user=None, pw=None,
user_in=None, pw_in=None, intf=None):
authinfo = None
found = 0
logged_in = 0
if not has_iscsi():
raise IOError, _("iSCSI not available")
if self._initiator == "":
raise ValueError, _("No initiator name set")
if user or pw or user_in or pw_in:
# Note may raise a ValueError
authinfo = libiscsi.chapAuthInfo(username=user, password=pw,
reverse_username=user_in,
reverse_password=pw_in)
self.startup(intf)
# Note may raise an IOError
found_nodes = libiscsi.discover_sendtargets(address=ipaddr,
port=int(port),
authinfo=authinfo)
if found_nodes == None:
raise IOError, _("No iSCSI nodes discovered")
if intf:
w = intf.waitWindow(_("Logging in to iSCSI nodes"),
_("Logging in to iSCSI nodes"))
for node in found_nodes:
# skip nodes we already have
if node in self.nodes:
continue
found = found + 1
try:
if (authinfo):
node.setAuth(authinfo)
node.login()
self.nodes.append(node)
logged_in = logged_in + 1
except IOError, e:
log.warning(
"Could not log into discovered iscsi target %s: %s" %
(node.name, str(e)))
# some nodes may require different credentials
pass
if intf:
w.pop()
if found == 0:
raise IOError, _("No new iSCSI nodes discovered")
if logged_in == 0:
raise IOError, _("Could not log in to any of the discovered nodes")
stabilize(intf)
def writeKS(self, f):
if not self.initiatorSet:
return
f.write("iscsiname %s\n" %(self.initiator,))
for n in self.nodes:
f.write("iscsi --ipaddr %s --port %s" %(n.address, n.port))
auth = n.getAuth()
if auth:
f.write(" --user %s" % auth.username)
f.write(" --password %s" % auth.password)
if len(auth.reverse_username):
f.write(" --reverse-user %s" % auth.reverse_username)
if len(auth.reverse_password):
f.write(" --reverse-password %s" % auth.reverse_password)
f.write("\n")
def write(self, instPath, anaconda):
if not self.initiatorSet:
return
# set iscsi nodes to autostart
root = anaconda.storage.rootDevice
for node in self.nodes:
autostart = True
disks = self.getNodeDisks(node, anaconda.storage)
for disk in disks:
# nodes used for root get started by the initrd
if root.dependsOn(disk):
autostart = False
if autostart:
node.setParameter("node.startup", "automatic")
if not os.path.isdir(instPath + "/etc/iscsi"):
os.makedirs(instPath + "/etc/iscsi", 0755)
fd = os.open(instPath + INITIATOR_FILE, os.O_RDWR | os.O_CREAT)
os.write(fd, "InitiatorName=%s\n" %(self.initiator))
os.close(fd)
# copy "db" files. *sigh*
if os.path.isdir(instPath + "/var/lib/iscsi"):
shutil.rmtree(instPath + "/var/lib/iscsi")
if os.path.isdir("/var/lib/iscsi"):
shutil.copytree("/var/lib/iscsi", instPath + "/var/lib/iscsi",
symlinks=True)
def getNode(self, name, address, port):
for node in self.nodes:
if node.name == name and node.address == address and \
node.port == int(port):
return node
return None
def getNodeDisks(self, node, storage):
nodeDisks = []
iscsiDisks = storage.devicetree.getDevicesByType("iscsi")
for disk in iscsiDisks:
if disk.node == node:
nodeDisks.append(disk)
return nodeDisks
# Create iscsi singleton
iscsi = iscsi()
# vim:tw=78:ts=4:et:sw=4