core-admin/core/qubesutils.py

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#!/usr/bin/python
# -*- coding: utf-8 -*-
#
# The Qubes OS Project, http://www.qubes-os.org
#
# Copyright (C) 2011 Marek Marczykowski <marmarek@invisiblethingslab.com>
# Copyright (C) 2014 Wojciech Porczyk <wojciech@porczyk.eu>
#
# 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.
#
#
from __future__ import absolute_import
import string
from lxml import etree
from lxml.etree import ElementTree, SubElement, Element
from qubes.qubes import QubesException
from qubes.qubes import vmm
from qubes.qubes import system_path,vm_files
import sys
import os
import subprocess
import re
import time
import stat
import libvirt
from qubes.qdb import QubesDB,Error,DisconnectedError
import xen.lowlevel.xc
import xen.lowlevel.xs
BLKSIZE = 512
# all frontends, prefer xvdi
# TODO: get this from libvirt driver?
AVAILABLE_FRONTENDS = ['xvd'+c for c in
string.lowercase[8:]+string.lowercase[:8]]
def mbytes_to_kmg(size):
if size > 1024:
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return "%d GiB" % (size/1024)
else:
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return "%d MiB" % size
def kbytes_to_kmg(size):
if size > 1024:
return mbytes_to_kmg(size/1024)
else:
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return "%d KiB" % size
def bytes_to_kmg(size):
if size > 1024:
return kbytes_to_kmg(size/1024)
else:
return "%d B" % size
def size_to_human (size):
"""Humane readable size, with 1/10 precission"""
if size < 1024:
return str (size);
elif size < 1024*1024:
return str(round(size/1024.0,1)) + ' KiB'
elif size < 1024*1024*1024:
return str(round(size/(1024.0*1024),1)) + ' MiB'
else:
return str(round(size/(1024.0*1024*1024),1)) + ' GiB'
def parse_size(size):
units = [ ('K', 1024), ('KB', 1024),
('M', 1024*1024), ('MB', 1024*1024),
('G', 1024*1024*1024), ('GB', 1024*1024*1024),
]
size = size.strip().upper()
if size.isdigit():
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return int(size)
for unit, multiplier in units:
if size.endswith(unit):
size = size[:-len(unit)].strip()
return int(size)*multiplier
raise QubesException("Invalid size: {0}.".format(size))
def get_disk_usage_one(st):
try:
return st.st_blocks * BLKSIZE
except AttributeError:
return st.st_size
def get_disk_usage(path):
try:
st = os.lstat(path)
except OSError:
return 0
ret = get_disk_usage_one(st)
# if path is not a directory, this is skipped
for dirpath, dirnames, filenames in os.walk(path):
for name in dirnames + filenames:
ret += get_disk_usage_one(os.lstat(os.path.join(dirpath, name)))
return ret
def print_stdout(text):
print (text)
def print_stderr(text):
print >> sys.stderr, (text)
###### Block devices ########
def block_devid_to_name(devid):
major = devid / 256
minor = devid % 256
dev_class = ""
if major == 202:
dev_class = "xvd"
elif major == 8:
dev_class = "sd"
else:
raise QubesException("Unknown device class %d" % major)
if minor % 16 == 0:
return "%s%c" % (dev_class, ord('a')+minor/16)
else:
return "%s%c%d" % (dev_class, ord('a')+minor/16, minor%16)
def block_name_to_majorminor(name):
# check if it is already devid
if isinstance(name, int):
return (name / 256, name % 256)
if name.isdigit():
return (int(name) / 256, int(name) % 256)
if os.path.exists('/dev/%s' % name):
blk_info = os.stat(os.path.realpath('/dev/%s' % name))
if stat.S_ISBLK(blk_info.st_mode):
return (blk_info.st_rdev / 256, blk_info.st_rdev % 256)
major = 0
minor = 0
dXpY_style = False
disk = True
if name.startswith("xvd"):
major = 202
elif name.startswith("sd"):
major = 8
elif name.startswith("mmcblk"):
dXpY_style = True
major = 179
elif name.startswith("scd"):
disk = False
major = 11
elif name.startswith("sr"):
disk = False
major = 11
elif name.startswith("loop"):
dXpY_style = True
disk = False
major = 7
elif name.startswith("md"):
dXpY_style = True
major = 9
elif name.startswith("dm-"):
disk = False
major = 253
else:
# Unknown device
return (0, 0)
if not dXpY_style:
name_match = re.match(r"^([a-z]+)([a-z-])([0-9]*)$", name)
else:
name_match = re.match(r"^([a-z]+)([0-9]*)(?:p([0-9]+))?$", name)
if not name_match:
raise QubesException("Invalid device name: %s" % name)
if disk:
if dXpY_style:
minor = int(name_match.group(2))*8
else:
minor = (ord(name_match.group(2))-ord('a')) * 16
else:
minor = 0
if name_match.group(3):
minor += int(name_match.group(3))
return (major, minor)
def block_name_to_devid(name):
# check if it is already devid
if isinstance(name, int):
return name
if name.isdigit():
return int(name)
(major, minor) = block_name_to_majorminor(name)
return major << 8 | minor
def block_find_unused_frontend(vm = None):
assert vm is not None
assert vm.is_running()
xml = vm.libvirt_domain.XMLDesc()
parsed_xml = etree.fromstring(xml)
used = [target.get('dev', None) for target in
parsed_xml.xpath("//domain/devices/disk/target")]
for dev in AVAILABLE_FRONTENDS:
if dev not in used:
return dev
return None
def block_list_vm(vm, system_disks = False):
name_re = re.compile(r"^[a-z0-9-]{1,12}$")
device_re = re.compile(r"^[a-z0-9/-]{1,64}$")
# FIXME: any better idea of desc_re?
desc_re = re.compile(r"^.{1,255}$")
mode_re = re.compile(r"^[rw]$")
assert vm is not None
if not vm.is_running():
return []
devices_list = {}
try:
untrusted_devices = vm.qdb.multiread('/qubes-block-devices/')
except Error:
vm.refresh()
return {}
def get_dev_item(dev, item):
return untrusted_devices.get(
'/qubes-block-devices/%s/%s' % (dev, item),
None)
untrusted_devices_names = list(set(map(lambda x: x.split("/")[2],
untrusted_devices.keys())))
for untrusted_dev_name in untrusted_devices_names:
if name_re.match(untrusted_dev_name):
dev_name = untrusted_dev_name
untrusted_device_size = get_dev_item(dev_name, 'size')
untrusted_device_desc = get_dev_item(dev_name, 'desc')
untrusted_device_mode = get_dev_item(dev_name, 'mode')
untrusted_device_device = get_dev_item(dev_name, 'device')
if untrusted_device_desc is None or untrusted_device_mode is None\
or untrusted_device_size is None:
print >>sys.stderr, "Missing field in %s device parameters" %\
dev_name
continue
if untrusted_device_device is None:
untrusted_device_device = '/dev/' + dev_name
if not device_re.match(untrusted_device_device):
print >> sys.stderr, "Invalid %s device path in VM '%s'" % (
dev_name, vm.name)
continue
device_device = untrusted_device_device
if not untrusted_device_size.isdigit():
print >> sys.stderr, "Invalid %s device size in VM '%s'" % (
dev_name, vm.name)
continue
device_size = int(untrusted_device_size)
if not desc_re.match(untrusted_device_desc):
print >> sys.stderr, "Invalid %s device desc in VM '%s'" % (
dev_name, vm.name)
continue
device_desc = untrusted_device_desc
if not mode_re.match(untrusted_device_mode):
print >> sys.stderr, "Invalid %s device mode in VM '%s'" % (
dev_name, vm.name)
continue
device_mode = untrusted_device_mode
if not system_disks:
if vm.qid == 0 and device_desc.startswith(system_path[
"qubes_base_dir"]):
continue
visible_name = "%s:%s" % (vm.name, dev_name)
devices_list[visible_name] = {
"name": visible_name,
"vm": vm.name,
"device": device_device,
"size": device_size,
"desc": device_desc,
"mode": device_mode
}
return devices_list
def block_list(qvmc = None, vm = None, system_disks = False):
if vm is not None:
if not vm.is_running():
return []
else:
vm_list = [ vm ]
else:
if qvmc is None:
raise QubesException("You must pass either qvm or vm argument")
vm_list = qvmc.values()
devices_list = {}
for vm in vm_list:
devices_list.update(block_list_vm(vm, system_disks))
return devices_list
def block_check_attached(qvmc, device):
"""
@type qvmc: QubesVmCollection
"""
if qvmc is None:
# TODO: ValueError
raise QubesException("You need to pass qvmc argument")
for vm in qvmc.values():
if vm.qid == 0:
# Connecting devices to dom0 not supported
continue
try:
libvirt_domain = vm.libvirt_domain
if libvirt_domain:
xml = libvirt_domain.XMLDesc()
else:
xml = None
except libvirt.libvirtError:
if vmm.libvirt_conn.virConnGetLastError()[0] == libvirt.VIR_ERR_NO_DOMAIN:
xml = None
else:
raise
if xml:
parsed_xml = etree.fromstring(xml)
disks = parsed_xml.xpath("//domain/devices/disk")
for disk in disks:
backend_name = 'dom0'
# FIXME: move <domain/> into <source/>
if disk.find('domain') is not None:
backend_name = disk.find('domain').get('name')
source = disk.find('source')
if disk.get('type') == 'file':
path = source.get('file')
elif disk.get('type') == 'block':
path = source.get('dev')
else:
# TODO: logger
print >>sys.stderr, "Unknown disk type '%s' attached to " \
"VM '%s'" % (source.get('type'),
vm.name)
continue
if backend_name == device['vm'] and path == device['device']:
return {
"frontend": disk.find('target').get('dev'),
"vm": vm}
return None
def device_attach_check(vm, backend_vm, device, frontend, mode):
""" Checks all the parameters, dies on errors """
if not vm.is_running():
raise QubesException("VM %s not running" % vm.name)
if not backend_vm.is_running():
raise QubesException("VM %s not running" % backend_vm.name)
if device['mode'] == 'r' and mode == 'w':
raise QubesException("Cannot attach read-only device in read-write "
"mode")
def block_attach(qvmc, vm, device, frontend=None, mode="w", auto_detach=False, wait=True):
backend_vm = qvmc.get_vm_by_name(device['vm'])
device_attach_check(vm, backend_vm, device, frontend, mode)
if frontend is None:
frontend = block_find_unused_frontend(vm)
if frontend is None:
raise QubesException("No unused frontend found")
else:
# Check if any device attached at this frontend
xml = vm.libvirt_domain.XMLDesc()
parsed_xml = etree.fromstring(xml)
disks = parsed_xml.xpath("//domain/devices/disk/target[@dev='%s']" %
frontend)
if len(disks):
raise QubesException("Frontend %s busy in VM %s, detach it first" % (frontend, vm.name))
# Check if this device is attached to some domain
attached_vm = block_check_attached(qvmc, device)
if attached_vm:
if auto_detach:
block_detach(attached_vm['vm'], attached_vm['frontend'])
else:
raise QubesException("Device %s from %s already connected to VM "
"%s as %s" % (device['device'],
backend_vm.name, attached_vm['vm'], attached_vm['frontend']))
disk = Element("disk")
disk.set('type', 'block')
disk.set('device', 'disk')
SubElement(disk, 'driver').set('name', 'phy')
SubElement(disk, 'source').set('dev', device['device'])
SubElement(disk, 'target').set('dev', frontend)
if backend_vm.qid != 0:
SubElement(disk, 'backenddomain').set('name', device['vm'])
vm.libvirt_domain.attachDevice(etree.tostring(disk, encoding='utf-8'))
def block_detach(vm, frontend = "xvdi"):
xml = vm.libvirt_domain.XMLDesc()
parsed_xml = etree.fromstring(xml)
attached = parsed_xml.xpath("//domain/devices/disk")
for disk in attached:
if frontend is not None and disk.find('target').get('dev') != frontend:
# Not the device we are looking for
continue
if frontend is None:
# ignore system disks
if disk.find('domain') == None and \
disk.find('source').get('dev').startswith(system_path[
"qubes_base_dir"]):
continue
vm.libvirt_domain.detachDevice(etree.tostring(disk, encoding='utf-8'))
def block_detach_all(vm):
""" Detach all non-system devices"""
block_detach(vm, None)
####### USB devices ######
usb_ver_re = re.compile(r"^(1|2)$")
usb_device_re = re.compile(r"^[0-9]+-[0-9]+(_[0-9]+)?$")
usb_port_re = re.compile(r"^$|^[0-9]+-[0-9]+(\.[0-9]+)?$")
def usb_setup(backend_vm_xid, vm_xid, devid, usb_ver):
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"""
Attach frontend to the backend.
backend_vm_xid - id of the backend domain
vm_xid - id of the frontend domain
devid - id of the pvusb controller
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"""
num_ports = 8
trans = vmm.xs.transaction_start()
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be_path = "/local/domain/%d/backend/vusb/%d/%d" % (backend_vm_xid, vm_xid, devid)
fe_path = "/local/domain/%d/device/vusb/%d" % (vm_xid, devid)
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be_perm = [{'dom': backend_vm_xid}, {'dom': vm_xid, 'read': True} ]
fe_perm = [{'dom': vm_xid}, {'dom': backend_vm_xid, 'read': True} ]
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# Create directories and set permissions
vmm.xs.write(trans, be_path, "")
vmm.xs.set_permissions(trans, be_path, be_perm)
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vmm.xs.write(trans, fe_path, "")
vmm.xs.set_permissions(trans, fe_path, fe_perm)
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# Write backend information into the location that frontend looks for
vmm.xs.write(trans, "%s/backend-id" % fe_path, str(backend_vm_xid))
vmm.xs.write(trans, "%s/backend" % fe_path, be_path)
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# Write frontend information into the location that backend looks for
vmm.xs.write(trans, "%s/frontend-id" % be_path, str(vm_xid))
vmm.xs.write(trans, "%s/frontend" % be_path, fe_path)
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# Write USB Spec version field.
vmm.xs.write(trans, "%s/usb-ver" % be_path, usb_ver)
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# Write virtual root hub field.
vmm.xs.write(trans, "%s/num-ports" % be_path, str(num_ports))
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for port in range(1, num_ports+1):
# Set all port to disconnected state
vmm.xs.write(trans, "%s/port/%d" % (be_path, port), "")
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# Set state to XenbusStateInitialising
vmm.xs.write(trans, "%s/state" % fe_path, "1")
vmm.xs.write(trans, "%s/state" % be_path, "1")
vmm.xs.write(trans, "%s/online" % be_path, "1")
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vmm.xs.transaction_end(trans)
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def usb_decode_device_from_xs(xs_encoded_device):
""" recover actual device name (xenstore doesn't allow dot in key names, so it was translated to underscore) """
return xs_encoded_device.replace('_', '.')
def usb_encode_device_for_xs(device):
""" encode actual device name (xenstore doesn't allow dot in key names, so translated it into underscore) """
return device.replace('.', '_')
def usb_list():
"""
Returns a dictionary of USB devices (for PVUSB backends running in all VM).
The dictionary is keyed by 'name' (see below), each element is a dictionary itself:
vm = name of the backend domain
xid = xid of the backend domain
device = <frontend device number>-<frontend port number>
name = <name of backend domain>:<frontend device number>-<frontend port number>
desc = description
"""
# FIXME: any better idea of desc_re?
desc_re = re.compile(r"^.{1,255}$")
devices_list = {}
xs_trans = vmm.xs.transaction_start()
vm_list = vmm.xs.ls(xs_trans, '/local/domain')
for xid in vm_list:
vm_name = vmm.xs.read(xs_trans, '/local/domain/%s/name' % xid)
vm_devices = vmm.xs.ls(xs_trans, '/local/domain/%s/qubes-usb-devices' % xid)
if vm_devices is None:
continue
# when listing devices in xenstore we get encoded names
for xs_encoded_device in vm_devices:
# Sanitize device id
if not usb_device_re.match(xs_encoded_device):
print >> sys.stderr, "Invalid device id in backend VM '%s'" % vm_name
continue
device = usb_decode_device_from_xs(xs_encoded_device)
device_desc = vmm.xs.read(xs_trans, '/local/domain/%s/qubes-usb-devices/%s/desc' % (xid, xs_encoded_device))
if not desc_re.match(device_desc):
print >> sys.stderr, "Invalid %s device desc in VM '%s'" % (device, vm_name)
continue
visible_name = "%s:%s" % (vm_name, device)
# grab version
usb_ver = vmm.xs.read(xs_trans, '/local/domain/%s/qubes-usb-devices/%s/usb-ver' % (xid, xs_encoded_device))
if usb_ver is None or not usb_ver_re.match(usb_ver):
print >> sys.stderr, "Invalid %s device USB version in VM '%s'" % (device, vm_name)
continue
devices_list[visible_name] = {"name": visible_name, "xid":int(xid),
"vm": vm_name, "device":device,
"desc":device_desc,
"usb_ver":usb_ver}
vmm.xs.transaction_end(xs_trans)
return devices_list
def usb_check_attached(xs_trans, backend_vm, device):
"""
Checks if the given device in the given backend attached to any frontend.
Parameters:
backend_vm - xid of the backend domain
device - device name in the backend domain
Returns None or a dictionary:
vm - the name of the frontend domain
xid - xid of the frontend domain
frontend - frontend device number FIXME
devid - frontend port number FIXME
"""
# sample xs content: /local/domain/0/backend/vusb/4/0/port/1 = "7-5"
attached_dev = None
vms = vmm.xs.ls(xs_trans, '/local/domain/%d/backend/vusb' % backend_vm)
if vms is None:
return None
for vm in vms:
if not vm.isdigit():
print >> sys.stderr, "Invalid VM id"
continue
frontend_devs = vmm.xs.ls(xs_trans, '/local/domain/%d/backend/vusb/%s' % (backend_vm, vm))
if frontend_devs is None:
continue
for frontend_dev in frontend_devs:
if not frontend_dev.isdigit():
print >> sys.stderr, "Invalid frontend in VM %s" % vm
continue
ports = vmm.xs.ls(xs_trans, '/local/domain/%d/backend/vusb/%s/%s/port' % (backend_vm, vm, frontend_dev))
if ports is None:
continue
for port in ports:
# FIXME: refactor, see similar loop in usb_find_unused_frontend(), use usb_list() instead?
if not port.isdigit():
print >> sys.stderr, "Invalid port in VM %s frontend %s" % (vm, frontend)
continue
dev = vmm.xs.read(xs_trans, '/local/domain/%d/backend/vusb/%s/%s/port/%s' % (backend_vm, vm, frontend_dev, port))
if dev == "":
continue
# Sanitize device id
if not usb_port_re.match(dev):
print >> sys.stderr, "Invalid device id in backend VM %d @ %s/%s/port/%s" % \
(backend_vm, vm, frontend_dev, port)
continue
if dev == device:
frontend = "%s-%s" % (frontend_dev, port)
#TODO
vm_name = xl_ctx.domid_to_name(int(vm))
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if vm_name is None:
# FIXME: should we wipe references to frontends running on nonexistent VMs?
continue
attached_dev = {"xid":int(vm), "frontend": frontend, "devid": device, "vm": vm_name}
break
return attached_dev
#def usb_check_frontend_busy(vm, front_dev, port):
# devport = frontend.split("-")
# if len(devport) != 2:
# raise QubesException("Malformed frontend syntax, must be in device-port format")
# # FIXME:
# # return vmm.xs.read('', '/local/domain/%d/device/vusb/%d/state' % (vm.xid, frontend)) == '4'
# return False
def usb_find_unused_frontend(xs_trans, backend_vm_xid, vm_xid, usb_ver):
"""
Find an unused frontend/port to link the given backend with the given frontend.
Creates new frontend if needed.
Returns frontend specification in <device>-<port> format.
"""
# This variable holds an index of last frontend scanned by the loop below.
# If nothing found, this value will be used to derive the index of a new frontend.
last_frontend_dev = -1
frontend_devs = vmm.xs.ls(xs_trans, "/local/domain/%d/device/vusb" % vm_xid)
if frontend_devs is not None:
for frontend_dev in frontend_devs:
if not frontend_dev.isdigit():
print >> sys.stderr, "Invalid frontend_dev in VM %d" % vm_xid
continue
frontend_dev = int(frontend_dev)
fe_path = "/local/domain/%d/device/vusb/%d" % (vm_xid, frontend_dev)
if vmm.xs.read(xs_trans, "%s/backend-id" % fe_path) == str(backend_vm_xid):
if vmm.xs.read(xs_trans, '/local/domain/%d/backend/vusb/%d/%d/usb-ver' % (backend_vm_xid, vm_xid, frontend_dev)) != usb_ver:
last_frontend_dev = frontend_dev
continue
# here: found an existing frontend already connected to right backend using an appropriate USB version
ports = vmm.xs.ls(xs_trans, '/local/domain/%d/backend/vusb/%d/%d/port' % (backend_vm_xid, vm_xid, frontend_dev))
if ports is None:
print >> sys.stderr, "No ports in VM %d frontend_dev %d?" % (vm_xid, frontend_dev)
last_frontend_dev = frontend_dev
continue
for port in ports:
# FIXME: refactor, see similar loop in usb_check_attached(), use usb_list() instead?
if not port.isdigit():
print >> sys.stderr, "Invalid port in VM %d frontend_dev %d" % (vm_xid, frontend_dev)
continue
port = int(port)
dev = vmm.xs.read(xs_trans, '/local/domain/%d/backend/vusb/%d/%s/port/%s' % (backend_vm_xid, vm_xid, frontend_dev, port))
# Sanitize device id
if not usb_port_re.match(dev):
print >> sys.stderr, "Invalid device id in backend VM %d @ %d/%d/port/%d" % \
(backend_vm_xid, vm_xid, frontend_dev, port)
continue
if dev == "":
return '%d-%d' % (frontend_dev, port)
last_frontend_dev = frontend_dev
# create a new frontend_dev and link it to the backend
frontend_dev = last_frontend_dev + 1
usb_setup(backend_vm_xid, vm_xid, frontend_dev, usb_ver)
return '%d-%d' % (frontend_dev, 1)
def usb_attach(vm, backend_vm, device, frontend=None, auto_detach=False, wait=True):
device_attach_check(vm, backend_vm, device, frontend)
xs_trans = vmm.xs.transaction_start()
xs_encoded_device = usb_encode_device_for_xs(device)
usb_ver = vmm.xs.read(xs_trans, '/local/domain/%s/qubes-usb-devices/%s/usb-ver' % (backend_vm.xid, xs_encoded_device))
if usb_ver is None or not usb_ver_re.match(usb_ver):
vmm.xs.transaction_end(xs_trans)
raise QubesException("Invalid %s device USB version in VM '%s'" % (device, backend_vm.name))
if frontend is None:
frontend = usb_find_unused_frontend(xs_trans, backend_vm.xid, vm.xid, usb_ver)
else:
# Check if any device attached at this frontend
#if usb_check_frontend_busy(vm, frontend):
# raise QubesException("Frontend %s busy in VM %s, detach it first" % (frontend, vm.name))
vmm.xs.transaction_end(xs_trans)
raise NotImplementedError("Explicit USB frontend specification is not implemented yet")
# Check if this device is attached to some domain
attached_vm = usb_check_attached(xs_trans, backend_vm.xid, device)
vmm.xs.transaction_end(xs_trans)
if attached_vm:
if auto_detach:
usb_detach(backend_vm, attached_vm)
else:
raise QubesException("Device %s from %s already connected to VM %s as %s" % (device, backend_vm.name, attached_vm['vm'], attached_vm['frontend']))
# Run helper script
xl_cmd = [ '/usr/lib/qubes/xl-qvm-usb-attach.py', str(vm.xid), device, frontend, str(backend_vm.xid) ]
subprocess.check_call(xl_cmd)
def usb_detach(backend_vm, attachment):
xl_cmd = [ '/usr/lib/qubes/xl-qvm-usb-detach.py', str(attachment['xid']), attachment['devid'], attachment['frontend'], str(backend_vm.xid) ]
subprocess.check_call(xl_cmd)
def usb_detach_all(vm):
raise NotImplementedError("Detaching all devices from a given VM is not implemented yet")
####### QubesWatch ######
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def only_in_first_list(l1, l2):
ret=[]
for i in l1:
if not i in l2:
ret.append(i)
return ret
class QubesWatch(object):
def __init__(self):
self._qdb = {}
self._qdb_events = {}
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self.block_callback = None
self.meminfo_callback = None
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self.domain_callback = None
vmm.libvirt_conn.domainEventRegisterAny(
None,
libvirt.VIR_DOMAIN_EVENT_ID_LIFECYCLE,
self._domain_list_changed, None)
vmm.libvirt_conn.domainEventRegisterAny(
None,
libvirt.VIR_DOMAIN_EVENT_ID_DEVICE_REMOVED,
self._device_removed, None)
# TODO: device attach libvirt event
for vm in vmm.libvirt_conn.listAllDomains():
try:
if vm.isActive():
self._register_watches(vm)
except libvirt.libvirtError:
# this will happen if we loose a race with another tool,
# which can just remove the domain
if vmm.libvirt_conn.virConnGetLastError()[0] == libvirt.VIR_ERR_NO_DOMAIN:
pass
raise
# and for dom0
self._register_watches(None)
def _qdb_handler(self, watch, fd, events, domain_name):
try:
path = self._qdb[domain_name].read_watch()
except DisconnectedError:
libvirt.virEventRemoveHandle(watch)
del(self._qdb_events[domain_name])
self._qdb[domain_name].close()
del(self._qdb[domain_name])
return
if path.startswith('/qubes-block-devices'):
if self.block_callback is not None:
self.block_callback(domain_name)
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def setup_block_watch(self, callback):
self.block_callback = callback
def setup_meminfo_watch(self, callback):
2015-02-07 01:14:22 +01:00
raise NotImplementedError
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def setup_domain_watch(self, callback):
self.domain_callback = callback
def get_meminfo_key(self, xid):
return '/local/domain/%s/memory/meminfo' % xid
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def _register_watches(self, libvirt_domain):
if libvirt_domain:
name = libvirt_domain.name()
if name in self._qdb:
return
# open separate connection to Qubes DB:
# 1. to not confuse pull() with responses to real commands sent from
# other threads (like read, write etc) with watch events
# 2. to not think whether QubesDB is thread-safe (it isn't)
while libvirt_domain.isActive() and name not in self._qdb:
try:
self._qdb[name] = QubesDB(name)
except Error as e:
if e.args[0] != 2:
raise
time.sleep(0.5)
if name not in self._qdb:
# domain no longer active
return
else:
name = "dom0"
self._qdb[name] = QubesDB(name)
self._qdb[name].watch('/qubes-block-devices')
self._qdb_events[name] = libvirt.virEventAddHandle(
self._qdb[name].watch_fd(),
libvirt.VIR_EVENT_HANDLE_READABLE,
self._qdb_handler, name)
def _unregister_watches(self, libvirt_domain):
name = libvirt_domain.name()
if name in self._qdb_events:
libvirt.virEventRemoveHandle(self._qdb_events[name])
del(self._qdb_events[name])
if name in self._qdb:
self._qdb[name].close()
del(self._qdb[name])
def _domain_list_changed(self, conn, domain, event, reason, param):
if event == libvirt.VIR_DOMAIN_EVENT_STARTED:
self._register_watches(domain)
elif event == libvirt.VIR_DOMAIN_EVENT_STOPPED:
self._unregister_watches(domain)
else:
# ignore other events for now
return None
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if self.domain_callback:
self.domain_callback(name=domain.name(), uuid=domain.UUID())
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def _device_removed(self, conn, domain, device, param):
if self.block_callback is not None:
self.block_callback(domain.name())
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def watch_loop(self):
while True:
libvirt.virEventRunDefaultImpl()
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##### updates check #####
UPDATES_DOM0_DISABLE_FLAG='/var/lib/qubes/updates/disable-updates'
def updates_vms_toggle(qvm_collection, value):
for vm in qvm_collection.values():
if vm.qid == 0:
continue
if value:
vm.services.pop('qubes-update-check', None)
if vm.is_running():
try:
vm.run("systemctl start qubes-update-check.timer",
user="root")
except:
pass
else:
vm.services['qubes-update-check'] = False
if vm.is_running():
try:
vm.run("systemctl stop qubes-update-check.timer",
user="root")
except:
pass
def updates_dom0_toggle(qvm_collection, value):
if value:
if os.path.exists(UPDATES_DOM0_DISABLE_FLAG):
os.unlink(UPDATES_DOM0_DISABLE_FLAG)
else:
open(UPDATES_DOM0_DISABLE_FLAG, "w").close()
def updates_dom0_status(qvm_collection):
return not os.path.exists(UPDATES_DOM0_DISABLE_FLAG)
# vim:sw=4:et: