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4cf0a61858
core-admin/dom0/pendrive_swapper/qfilexchgd
Rafal Wojtczuk 4cf0a61858 Before restoring DVM, check for available xen memory 
As we already do xm mem-set 0 800 in qubes_core, this is a
correct check. Now, there should be no errors from qubes_restore
in normal circumstances.
2010-07-27 16:08:09 +02:00

340 lines
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Python
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#!/usr/bin/python2.6
#
# The Qubes OS Project, http://www.qubes-os.org
#
# Copyright (C) 2010 Rafal Wojtczuk <rafal@invisiblethingslab.com>
#
# 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 xen.lowlevel.xs
import os
import os.path
import sys
import subprocess
import daemon
import time
from qubes.qubes import QubesVmCollection
from qubes.qubes import QubesException
from qubes.qubes import QubesDaemonPidfile
filename_seq = 50
pen_cmd = '/usr/lib/qubes/qubes_pencmd'
disposable_domains_dict = {}
current_savefile = '/var/run/qubes/current_savefile'
def get_next_filename_seq():
global filename_seq
filename_seq = filename_seq + 1
return str(filename_seq)
def logproc(msg):
f = file('/var/log/qubes/qfileexchgd', 'a')
f.write(msg+'\n')
f.close()
def get_req_node(domain_id):
return '/local/domain/'+domain_id+'/device/qpen'
def get_name_node(domain_id):
return '/local/domain/'+domain_id+'/name'
def only_in_first_list(l1, l2):
ret=[]
for i in l1:
if not i in l2:
ret.append(i)
return ret
class WatchType:
def __init__(self, fn, param):
self.fn = fn
self.param = param
class DomainState:
def __init__(self, domain, dict):
self.rcv_state = 'idle'
self.send_state = 'idle'
self.domain_id = domain
self.domdict = dict
self.send_seq = None
self.rcv_seq = None
self.waiting_sender = None
self.allowed_dest = None
self.allowed_seq = None
def killme(self):
if not os.path.isfile('/etc/debug-dvm'):
subprocess.call(['/usr/sbin/xm', 'destroy', self.domain_id])
def handle_request(self, request):
req_ok = False
if request is None:
return
tmp = request.split()
rq = tmp[0]
if len(tmp) > 1:
vmname = tmp[1]
else:
vmname = None
if len(tmp) > 2:
transaction_seq = tmp[2]
else:
transaction_seq = '0'
if rq == 'killme':
self.killme()
req_ok = True
if rq == 'new' and self.send_state == 'idle':
self.send_seq = get_next_filename_seq()
retcode = subprocess.call([pen_cmd, 'new', self.domain_id, self.send_seq])
logproc( 'Give domain ' + self.domain_id + ' a clean pendrive, retcode= ' + str(retcode))
if retcode == 0:
self.send_state = 'has_clean_pendrive'
req_ok = True
if rq == 'send' and self.send_state == 'has_clean_pendrive' and vmname is not None:
logproc( 'send from ' + self.domain_id + ' to ' + vmname)
if self.handle_transfer(vmname, transaction_seq):
self.send_state = 'idle'
req_ok = True;
if rq == 'umount' and self.rcv_state == 'has_loaded_pendrive':
retcode = subprocess.call([pen_cmd, 'umount', self.domain_id, self.rcv_seq])
if retcode == 0:
self.rcv_state = 'idle'
self.rcv_seq = None
logproc( 'set state of ' + self.domain_id + ' loaded->idle retcode=' + str(retcode))
req_ok = True
if rq == 'umount' and self.rcv_state == 'waits_to_umount':
req_ok = True
retcode = subprocess.call([pen_cmd, 'umount', self.domain_id, self.rcv_seq])
if retcode != 0:
return
assert(self.waiting_sender != None)
self.rcv_state = 'idle'
self.rcv_seq = None
tmp = self.waiting_sender
self.waiting_sender = None
if tmp.send_state == 'has_clean_pendrive':
if tmp.handle_transfer(self.name, self.delayed_transaction_seq):
tmp.send_state = 'idle'
if not req_ok:
logproc( 'request ' + request + ' not served due to nonmatching state')
def ask_to_umount(self, vmname):
q = 'VM ' + vmname + ' has already an incoming pendrive, and thus '
q+= 'cannot accept another one. If you intend to unmount its current '
q+= 'pendrive and retry this transfer, press Yes. '
q+= 'Otherwise press No to fail this transfer.'
retcode = subprocess.call(['/usr/bin/kdialog', '--yesno', q, '--title', 'Some additional action required'])
if retcode == 0:
return True
else:
return False
def handle_transfer_regular(self, vmname, transaction_seq):
qvm_collection = QubesVmCollection()
qvm_collection.lock_db_for_reading()
qvm_collection.load()
qvm_collection.unlock_db()
vm = qvm_collection.get_vm_by_name(vmname)
if vm is None:
logproc( 'Domain ' + vmname + ' does not exist ?')
return False
if not vm.is_running():
logproc( 'Domain ' + vmname + ' is not running ?')
return False
target=self.domdict[str(vm.get_xid())]
if target.rcv_state != 'idle':
if self.ask_to_umount(vmname):
target.rcv_state='waits_to_umount'
target.waiting_sender=self
self.delayed_transaction_seq=transaction_seq
logproc( 'target domain ' + target.domain_id + ' is not idle, now ' + target.rcv_state)
return False
if self.allowed_seq is not None:
if self.allowed_seq != transaction_seq or self.allowed_dest != target.name:
logproc('sender ' + self.name + ' receiver ' + target.name + ' : allowed attributes mismatch, denied')
return False
else:
transaction_seq = '0'
retcode = subprocess.call(['/usr/bin/kdialog', '--yesno', 'Do you authorize pendrive transfer from ' + self.name + ' to ' + vmname + '?' , '--title', 'Security confirmation'])
logproc('handle_transfer: kdialog retcode=' + str(retcode))
if retcode != 0:
return False
target.rcv_state='has_loaded_pendrive'
retcode = subprocess.call([pen_cmd, 'send', self.domain_id, target.domain_id, self.send_seq, transaction_seq])
target.rcv_seq = self.send_seq
self.send_seq = None
logproc( 'set state of ' + target.domain_id + ' to has_loaded_pendrive, retcode=' + str(retcode))
if self.allowed_seq is not None:
self.killme()
return True
def handle_transfer_disposable(self, transaction_seq):
mem_for_dvm = 400
xenfreepages_s = subprocess.Popen(["/usr/lib/qubes/xenfreepages"],stdout=subprocess.PIPE).stdout.readline()
xenfree_mb = int(xenfreepages_s)*4096/1024/1024
if xenfree_mb < mem_for_dvm:
errmsg = 'Not enough memory to create DVM: '
errmsg +='have ' + str(xenfree_mb) + 'MB, need '
errmsg +=str(mem_for_dvm) + 'MB. Terminate some appVM and retry.'
subprocess.call(['/usr/bin/kdialog', '--sorry', errmsg])
return False
qvm_collection = QubesVmCollection()
qvm_collection.lock_db_for_writing()
qvm_collection.load()
vm = qvm_collection.get_vm_by_name(self.name)
if vm is None:
logproc( 'Domain ' + vmname + ' does not exist ?')
qvm_collection.unlock_db()
return False
retcode = subprocess.call(['/usr/lib/qubes/qubes_restore',
current_savefile,
'-c', vm.label.color,
'-i', vm.label.icon,
'-l', str(vm.label.index)])
if retcode != 0:
subprocess.call(['/usr/bin/kdialog', '--sorry', 'DisposableVM creation failed, see qubes_restore.log'])
qvm_collection.unlock_db()
return False
f = open('/var/run/qubes/dispVM_xid', 'r');
disp_xid = f.readline().rstrip('\n')
disp_name = f.readline().rstrip('\n')
disptempl = f.readline().rstrip('\n')
f.close()
vm_disptempl = qvm_collection.get_vm_by_name(disptempl);
if vm_disptempl is None:
logproc( 'Domain ' + disptempl + ' does not exist ?')
qvm_collection.unlock_db()
return False
qvm_collection.add_new_appvm(disp_name, vm_disptempl.template_vm, label=vm.label)
qvm_collection.save()
qvm_collection.unlock_db()
dispdom = DomainState(disp_xid, self.domdict)
disposable_domains_dict[disp_xid] = dispdom
retcode = subprocess.call([pen_cmd, 'send', self.domain_id, disp_xid, self.send_seq, transaction_seq])
dispdom.rcv_seq = self.send_seq
dispdom.rcv_state = 'has_loaded_pendrive'
dispdom.allowed_dest = self.name
dispdom.allowed_seq = transaction_seq
self.send_seq = None
logproc( 'sent pendrive to disposable xid ' + disp_xid)
return True
def handle_transfer(self, vmname, transaction_seq):
dvmdata_dir = '/var/lib/qubes/dvmdata/'
if vmname != 'disposable':
return self.handle_transfer_regular(vmname, transaction_seq)
if not os.path.isfile(current_savefile):
subprocess.call(['/usr/bin/kdialog', '--sorry', 'There is no current savefile defined; run Qubes Manager'])
return False
if not os.path.isfile(dvmdata_dir+'default_savefile') or not os.path.isfile(dvmdata_dir+'savefile_root'):
subprocess.call(['/usr/bin/kdialog', '--sorry', 'Default savefile misconfiguration; run Qubes Manager'])
return False
dvm_mtime = os.stat(current_savefile).st_mtime
root_mtime = os.stat(dvmdata_dir+'savefile_root').st_mtime
if dvm_mtime < root_mtime:
subprocess.call(['/usr/bin/kdialog', '--sorry', 'Your current savefile is outdated, as you have updated the template VM. Run Qubes Manager and recreate the savefile'])
return False
return self.handle_transfer_disposable(transaction_seq)
class XS_Watcher:
def __init__(self):
self.handle = xen.lowlevel.xs.xs()
self.handle.watch('/local/domain', WatchType(XS_Watcher.dom_list_change, None))
self.domdict = {}
def dom_list_change(self, param):
curr = self.handle.ls('', '/local/domain')
if curr == None:
return
for i in only_in_first_list(curr, self.domdict.keys()):
if disposable_domains_dict.has_key(i):
newdom = disposable_domains_dict[i]
else:
newdom = DomainState(i, self.domdict)
newdom.name = ''
self.domdict[i] = newdom
newdom.watch_token = WatchType(XS_Watcher.request, newdom)
newdom.watch_name = WatchType(XS_Watcher.namechange, newdom)
self.handle.watch(get_req_node(i), newdom.watch_token)
self.handle.watch(get_name_node(i), newdom.watch_name)
logproc( 'added domain ' + i)
for i in only_in_first_list(self.domdict.keys(), curr):
if disposable_domains_dict.has_key(i):
self.remove_disposable_from_qdb(self.domdict[i].name)
disposable_domains_dict.pop(i)
self.handle.unwatch(get_req_node(i), self.domdict[i].watch_token)
self.handle.unwatch(get_name_node(i), self.domdict[i].watch_name)
self.domdict.pop(i)
logproc( 'removed domain ' + i)
def request(self, domain_param):
ret = self.handle.read('', get_req_node(domain_param.domain_id))
domain_param.handle_request(ret)
def namechange(self, domain_param):
ret = self.handle.read('', get_name_node(domain_param.domain_id))
if ret!= '' and ret!=None:
domain_param.name = ret
logproc( 'Name for domain xid ' + domain_param.domain_id + ' is ' + ret )
def remove_disposable_from_qdb(self, name):
qvm_collection = QubesVmCollection()
qvm_collection.lock_db_for_writing()
qvm_collection.load()
vm = qvm_collection.get_vm_by_name(name)
if vm is None:
logproc( 'remove_disposable_from_qdb: Domain ' + vmname + ' does not exist ?')
qvm_collection.unlock_db()
return False
qvm_collection.pop(vm.qid)
qvm_collection.save()
qvm_collection.unlock_db()
def watch_loop(self):
sys.stderr = file('/var/log/qubes/qfileexchgd.errors', 'a')
while True:
result = self.handle.read_watch()
token = result[1]
token.fn(self, token.param)
def main():
lock = QubesDaemonPidfile ("qfileexchgd")
if lock.pidfile_exists():
if lock.pidfile_is_stale():
lock.remove_pidfile()
print "Removed stale pidfile (has the previous daemon instance crashed?)."
else:
exit (0)
context = daemon.DaemonContext(
working_directory = "/var/run/qubes",
pidfile = lock)
with context:
XS_Watcher().watch_loop()
main()
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