#!/usr/bin/python2 # -*- coding: utf-8 -*- # # The Qubes OS Project, http://www.qubes-os.org # # Copyright (C) 2010 Joanna Rutkowska # Copyright (C) 2013 Marek Marczykowski # # 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 datetime import fcntl import lxml.etree import os import os.path import re import shutil import subprocess import sys import time import uuid import xml.parsers.expat import xen.lowlevel.xc from qubes import qmemman from qubes import qmemman_algo from qubes.qubes import xs,dry_run,xc,xl_ctx from qubes.qubes import register_qubes_vm_class from qubes.qubes import QubesVmCollection,QubesException,QubesHost,QubesVmLabels from qubes.qubes import defaults,system_path,vm_files,qubes_max_qid from qubes.qmemman_client import QMemmanClient import qubes.qubesutils xid_to_name_cache = {} class QubesVm(object): """ A representation of one Qubes VM Only persistent information are stored here, while all the runtime information, e.g. Xen dom id, etc, are to be retrieved via Xen API Note that qid is not the same as Xen's domid! """ # In which order load this VM type from qubes.xml load_order = 100 # hooks for plugins (modules) which want to influence existing classes, # without introducing new ones hooks_clone_disk_files = [] hooks_create_on_disk = [] hooks_create_xenstore_entries = [] hooks_get_attrs_config = [] hooks_get_clone_attrs = [] hooks_get_config_params = [] hooks_init = [] hooks_label_setter = [] hooks_netvm_setter = [] hooks_post_rename = [] hooks_pre_rename = [] hooks_remove_from_disk = [] hooks_start = [] hooks_verify_files = [] hooks_set_attr = [] def get_attrs_config(self): """ Object attributes for serialization/deserialization inner dict keys: - order: initialization order (to keep dependency intact) attrs without order will be evaluated at the end - default: default value used when attr not given to object constructor - attr: set value to this attribute instead of parameter name - eval: (DEPRECATED) assign result of this expression instead of value directly; local variable 'value' contains attribute value (or default if it was not given) - func: callable used to parse the value retrieved from XML - save: use evaluation result as value for XML serialization; only attrs with 'save' key will be saved in XML - save_skip: if present and evaluates to true, attr will be omitted in XML - save_attr: save to this XML attribute instead of parameter name """ attrs = { # __qid cannot be accessed by setattr, so must be set manually in __init__ "qid": { "attr": "_qid", "order": 0 }, "name": { "order": 1 }, "dir_path": { "default": None, "order": 2 }, "conf_file": { "func": lambda value: self.absolute_path(value, self.name + ".conf"), "order": 3 }, ### order >= 10: have base attrs set "root_img": { "func": self._absolute_path_gen(vm_files["root_img"]), "order": 10 }, "private_img": { "func": self._absolute_path_gen(vm_files["private_img"]), "order": 10 }, "volatile_img": { "func": self._absolute_path_gen(vm_files["volatile_img"]), "order": 10 }, "firewall_conf": { "func": self._absolute_path_gen(vm_files["firewall_conf"]), "order": 10 }, "installed_by_rpm": { "default": False, 'order': 10 }, "template": { "default": None, "attr": '_template', 'order': 10 }, ### order >= 20: have template set "uses_default_netvm": { "default": True, 'order': 20 }, "netvm": { "default": None, "attr": "_netvm", 'order': 20 }, "label": { "attr": "_label", "default": defaults["appvm_label"], 'order': 20, 'xml_deserialize': lambda _x: QubesVmLabels[_x] }, "memory": { "default": defaults["memory"], 'order': 20 }, "maxmem": { "default": None, 'order': 25 }, "pcidevs": { "default": '[]', "order": 25, "func": lambda value: [] if value in ["none", None] else eval(value) if value.find("[") >= 0 else eval("[" + value + "]") }, # Internal VM (not shown in qubes-manager, doesn't create appmenus entries "internal": { "default": False, 'attr': '_internal' }, "vcpus": { "default": None }, "uses_default_kernel": { "default": True, 'order': 30 }, "uses_default_kernelopts": { "default": True, 'order': 30 }, "kernel": { "attr": "_kernel", "default": None, "order": 31, "func": lambda value: self._collection.get_default_kernel() if self.uses_default_kernel else value }, "kernelopts": { "default": "", "order": 31, "func": lambda value: value if not self.uses_default_kernelopts\ else defaults["kernelopts_pcidevs"] if len(self.pcidevs)>0 \ else defaults["kernelopts"] }, "mac": { "attr": "_mac", "default": None }, "include_in_backups": { "default": True }, "services": { "default": {}, "func": lambda value: eval(str(value)) }, "debug": { "default": False }, "default_user": { "default": "user", "attr": "_default_user" }, "qrexec_timeout": { "default": 60 }, "autostart": { "default": False, "attr": "_autostart" }, "backup_content" : { 'default': False }, "backup_size" : { "default": 0, "func": int }, "backup_path" : { 'default': "" }, "backup_timestamp": { "func": lambda value: datetime.datetime.fromtimestamp(int(value)) if value else None }, ##### Internal attributes - will be overriden in __init__ regardless of args "config_file_template": { "func": lambda x: system_path["config_template_pv"] }, "icon_path": { "func": lambda x: os.path.join(self.dir_path, "icon.png") if self.dir_path is not None else None }, # used to suppress side effects of clone_attrs "_do_not_reset_firewall": { "func": lambda x: False }, "kernels_dir": { # for backward compatibility (or another rare case): kernel=None -> kernel in VM dir "func": lambda x: \ os.path.join(system_path["qubes_kernels_base_dir"], self.kernel) if self.kernel is not None \ else os.path.join(self.dir_path, vm_files["kernels_subdir"]) }, "_start_guid_first": { "func": lambda x: False }, } ### Mark attrs for XML inclusion # Simple string attrs for prop in ['qid', 'name', 'dir_path', 'memory', 'maxmem', 'pcidevs', 'vcpus', 'internal',\ 'uses_default_kernel', 'kernel', 'uses_default_kernelopts',\ 'kernelopts', 'services', 'installed_by_rpm',\ 'uses_default_netvm', 'include_in_backups', 'debug',\ 'qrexec_timeout', 'autostart', 'backup_content', 'backup_size', 'backup_path' ]: attrs[prop]['save'] = lambda prop=prop: str(getattr(self, prop)) # Simple paths for prop in ['conf_file', 'root_img', 'volatile_img', 'private_img']: attrs[prop]['save'] = \ lambda prop=prop: self.relative_path(getattr(self, prop)) attrs[prop]['save_skip'] = \ lambda prop=prop: getattr(self, prop) is None attrs['mac']['save'] = lambda: str(self._mac) attrs['mac']['save_skip'] = lambda: self._mac is None attrs['default_user']['save'] = lambda: str(self._default_user) attrs['backup_timestamp']['save'] = \ lambda: self.backup_timestamp.strftime("%s") attrs['backup_timestamp']['save_skip'] = \ lambda: self.backup_timestamp is None attrs['netvm']['save'] = \ lambda: str(self.netvm.qid) if self.netvm is not None else "none" attrs['netvm']['save_attr'] = "netvm_qid" attrs['template']['save'] = \ lambda: str(self.template.qid) if self.template else "none" attrs['template']['save_attr'] = "template_qid" attrs['label']['save'] = lambda: self.label.name # fire hooks for hook in self.hooks_get_attrs_config: attrs = hook(self, attrs) return attrs def post_set_attr(self, attr, newvalue, oldvalue): for hook in self.hooks_set_attr: hook(self, attr, newvalue, oldvalue) def __basic_parse_xml_attr(self, value): if value is None: return None if value.lower() == "none": return None if value.lower() == "true": return True if value.lower() == "false": return False if value.isdigit(): return int(value) return value def __init__(self, **kwargs): self._collection = None if 'collection' in kwargs: self._collection = kwargs['collection'] else: raise ValueError("No collection given to QubesVM constructor") # Special case for template b/c it is given in "template_qid" property if "xml_element" in kwargs and kwargs["xml_element"].get("template_qid"): template_qid = kwargs["xml_element"].get("template_qid") if template_qid.lower() != "none": if int(template_qid) in self._collection: kwargs["template"] = self._collection[int(template_qid)] else: raise ValueError("Unknown template with QID %s" % template_qid) attrs = self.get_attrs_config() for attr_name in sorted(attrs, key=lambda _x: attrs[_x]['order'] if 'order' in attrs[_x] else 1000): attr_config = attrs[attr_name] attr = attr_name if 'attr' in attr_config: attr = attr_config['attr'] value = None if attr_name in kwargs: value = kwargs[attr_name] elif 'xml_element' in kwargs and kwargs['xml_element'].get(attr_name) is not None: if 'xml_deserialize' in attr_config and callable(attr_config['xml_deserialize']): value = attr_config['xml_deserialize'](kwargs['xml_element'].get(attr_name)) else: value = self.__basic_parse_xml_attr(kwargs['xml_element'].get(attr_name)) else: if 'default' in attr_config: value = attr_config['default'] if 'func' in attr_config: setattr(self, attr, attr_config['func'](value)) elif 'eval' in attr_config: setattr(self, attr, eval(attr_config['eval'])) else: #print "setting %s to %s" % (attr, value) setattr(self, attr, value) #Init private attrs self.__qid = self._qid assert self.__qid < qubes_max_qid, "VM id out of bounds!" assert self.name is not None if not self.verify_name(self.name): msg = ("'%s' is invalid VM name (invalid characters, over 31 chars long, " "or one of 'none', 'true', 'false')") % self.name if 'xml_element' in kwargs: print >>sys.stderr, "WARNING: %s" % msg else: raise QubesException(msg) if self.netvm is not None: self.netvm.connected_vms[self.qid] = self # Not in generic way to not create QubesHost() to frequently if self.maxmem is None: qubes_host = QubesHost() total_mem_mb = qubes_host.memory_total/1024 self.maxmem = total_mem_mb/2 # Linux specific cap: max memory can't scale beyond 10.79*init_mem if self.maxmem > self.memory * 10: self.maxmem = self.memory * 10 # By default allow use all VCPUs if self.vcpus is None: qubes_host = QubesHost() self.vcpus = qubes_host.no_cpus # Always set if meminfo-writer should be active or not if 'meminfo-writer' not in self.services: self.services['meminfo-writer'] = not (len(self.pcidevs) > 0) # Additionally force meminfo-writer disabled when VM have PCI devices if len(self.pcidevs) > 0: self.services['meminfo-writer'] = False # Some additional checks for template based VM if self.template is not None: if not self.template.is_template(): print >> sys.stderr, "ERROR: template_qid={0} doesn't point to a valid TemplateVM".\ format(self.template.qid) return False self.template.appvms[self.qid] = self else: assert self.root_img is not None, "Missing root_img for standalone VM!" self.xid = -1 self.xid = self.get_xid() # fire hooks for hook in self.hooks_init: hook(self) def __repr__(self): return '<{} at {:#0x} qid={!r} name={!r}>'.format( self.__class__.__name__, id(self), self.qid, self.name) def absolute_path(self, arg, default): if arg is not None and os.path.isabs(arg): return arg else: return os.path.join(self.dir_path, (arg if arg is not None else default)) def _absolute_path_gen(self, default): return lambda value: self.absolute_path(value, default) def relative_path(self, arg): return arg.replace(self.dir_path + '/', '') @property def qid(self): return self.__qid @property def label(self): return self._label @label.setter def label(self, new_label): self._label = new_label if self.icon_path: try: os.remove(self.icon_path) except: pass os.symlink (new_label.icon_path, self.icon_path) subprocess.call(['sudo', 'xdg-icon-resource', 'forceupdate']) # fire hooks for hook in self.hooks_label_setter: hook(self, new_label) @property def netvm(self): return self._netvm # Don't know how properly call setter from base class, so workaround it... @netvm.setter def netvm(self, new_netvm): self._set_netvm(new_netvm) # fire hooks for hook in self.hooks_netvm_setter: hook(self, new_netvm) def _set_netvm(self, new_netvm): if self.is_running() and new_netvm is not None and not new_netvm.is_running(): raise QubesException("Cannot dynamically attach to stopped NetVM") if self.netvm is not None: self.netvm.connected_vms.pop(self.qid) if self.is_running(): subprocess.call(["xl", "network-detach", self.name, "0"], stderr=subprocess.PIPE) if hasattr(self.netvm, 'post_vm_net_detach'): self.netvm.post_vm_net_detach(self) if new_netvm is None: if not self._do_not_reset_firewall: # Set also firewall to block all traffic as discussed in #370 if os.path.exists(self.firewall_conf): shutil.copy(self.firewall_conf, os.path.join(system_path["qubes_base_dir"], "backup", "%s-firewall-%s.xml" % (self.name, time.strftime('%Y-%m-%d-%H:%M:%S')))) self.write_firewall_conf({'allow': False, 'allowDns': False, 'allowIcmp': False, 'allowYumProxy': False, 'rules': []}) else: new_netvm.connected_vms[self.qid]=self self._netvm = new_netvm if new_netvm is None: return if self.is_running(): # refresh IP, DNS etc self.create_xenstore_entries() self.attach_network() if hasattr(self.netvm, 'post_vm_net_attach'): self.netvm.post_vm_net_attach(self) @property def ip(self): if self.netvm is not None: return self.netvm.get_ip_for_vm(self.qid) else: return None @property def netmask(self): if self.netvm is not None: return self.netvm.netmask else: return None @property def gateway(self): # This is gateway IP for _other_ VMs, so make sense only in NetVMs return None @property def secondary_dns(self): if self.netvm is not None: return self.netvm.secondary_dns else: return None @property def vif(self): if self.xid < 0: return None if self.netvm is None: return None return "vif{0}.+".format(self.xid) @property def mac(self): if self._mac is not None: return self._mac else: return "00:16:3E:5E:6C:{qid:02X}".format(qid=self.qid) @mac.setter def mac(self, new_mac): self._mac = new_mac @property def kernel(self): return self._kernel @kernel.setter def kernel(self, new_value): if new_value is not None: if not os.path.exists(os.path.join(system_path[ 'qubes_kernels_base_dir'], new_value)): raise QubesException("Kernel '%s' not installed" % new_value) for f in ('vmlinuz', 'modules.img'): if not os.path.exists(os.path.join( system_path['qubes_kernels_base_dir'], new_value, f)): raise QubesException( "Kernel '%s' not properly installed: missing %s " "file" % (new_value, f)) self._kernel = new_value @property def updateable(self): return self.template is None # Leaved for compatibility def is_updateable(self): return self.updateable @property def default_user(self): if self.template is not None: return self.template.default_user else: return self._default_user @default_user.setter def default_user(self, value): self._default_user = value def is_networked(self): if self.is_netvm(): return True if self.netvm is not None: return True else: return False def verify_name(self, name): if not isinstance(self.__basic_parse_xml_attr(name), str): return False if len(name) > 31: return False return re.match(r"^[a-zA-Z][a-zA-Z0-9_-]*$", name) is not None def pre_rename(self, new_name): # fire hooks for hook in self.hooks_pre_rename: hook(self, new_name) def set_name(self, name): if self.is_running(): raise QubesException("Cannot change name of running VM!") if not self.verify_name(name): raise QubesException("Invalid characters in VM name") if self.installed_by_rpm: raise QubesException("Cannot rename VM installed by RPM -- first clone VM and then use yum to remove package.") self.pre_rename(name) new_conf = os.path.join(self.dir_path, name + '.conf') if os.path.exists(self.conf_file): os.rename(self.conf_file, new_conf) old_dirpath = self.dir_path new_dirpath = os.path.join(os.path.dirname(self.dir_path), name) os.rename(old_dirpath, new_dirpath) self.dir_path = new_dirpath old_name = self.name self.name = name if self.private_img is not None: self.private_img = self.private_img.replace(old_dirpath, new_dirpath) if self.root_img is not None: self.root_img = self.root_img.replace(old_dirpath, new_dirpath) if self.volatile_img is not None: self.volatile_img = self.volatile_img.replace(old_dirpath, new_dirpath) if self.conf_file is not None: self.conf_file = new_conf.replace(old_dirpath, new_dirpath) if self.icon_path is not None: self.icon_path = self.icon_path.replace(old_dirpath, new_dirpath) if hasattr(self, 'kernels_dir') and self.kernels_dir is not None: self.kernels_dir = self.kernels_dir.replace(old_dirpath, new_dirpath) self.post_rename(old_name) def post_rename(self, old_name): # fire hooks for hook in self.hooks_post_rename: hook(self, old_name) @property def internal(self): return self._internal @internal.setter def internal(self, value): oldvalue = self._internal self._internal = value self.post_set_attr('internal', value, oldvalue) @property def autostart(self): return self._autostart @autostart.setter def autostart(self, value): if value: retcode = subprocess.call(["sudo", "systemctl", "enable", "qubes-vm@%s.service" % self.name]) else: retcode = subprocess.call(["sudo", "systemctl", "disable", "qubes-vm@%s.service" % self.name]) if retcode != 0: raise QubesException("Failed to set autostart for VM via systemctl") self._autostart = bool(value) @classmethod def is_template_compatible(cls, template): """Check if given VM can be a template for this VM""" # FIXME: check if the value is instance of QubesTemplateVM, not the VM # type. The problem is while this file is loaded, QubesTemplateVM is # not defined yet. if template and (not template.is_template() or template.type != "TemplateVM"): return False return True @property def template(self): return self._template @template.setter def template(self, value): if self._template is None and value is not None: raise QubesException("Cannot set template for standalone VM") if value and not self.is_template_compatible(value): raise QubesException("Incompatible template type %s with VM of type %s" % (value.type, self.type)) self._template = value def is_template(self): return False def is_appvm(self): return False def is_netvm(self): return False def is_proxyvm(self): return False def is_disposablevm(self): return False def _xid_to_name(self, xid): if xid in xid_to_name_cache: return xid_to_name_cache[xid] else: domname = xl_ctx.domid_to_name(xid) if domname: xid_to_name_cache[xid] = domname return domname def get_xl_dominfo(self): if dry_run: return start_xid = self.xid domains = xl_ctx.list_domains() for dominfo in domains: if dominfo.domid == start_xid: return dominfo elif dominfo.domid < start_xid: # the current XID can't lower than one noticed earlier, if VM # was restarted in the meantime, the next XID will greater continue domname = self._xid_to_name(dominfo.domid) if domname == self.name: self.xid = dominfo.domid return dominfo return None def get_xc_dominfo(self, name = None): if dry_run: return if name is None: name = self.name start_xid = self.xid if start_xid < 0: start_xid = 0 try: domains = xc.domain_getinfo(start_xid, qubes_max_qid) except xen.lowlevel.xc.Error: return None # If previous XID is still valid, this is the right domain - XID can't # be reused for another domain until system reboot if start_xid > 0 and domains[0]['domid'] == start_xid: return domains[0] for dominfo in domains: domname = self._xid_to_name(dominfo['domid']) if domname == name: return dominfo return None def get_xid(self): if dry_run: return 666 dominfo = self.get_xc_dominfo() if dominfo: self.xid = dominfo['domid'] return self.xid else: return -1 def get_uuid(self): dominfo = self.get_xl_dominfo() if dominfo: vmuuid = uuid.UUID(''.join('%02x' % b for b in dominfo.uuid)) return vmuuid else: return None def get_mem(self): if dry_run: return 666 dominfo = self.get_xc_dominfo() if dominfo: return dominfo['mem_kb'] else: return 0 def get_mem_static_max(self): if dry_run: return 666 dominfo = self.get_xc_dominfo() if dominfo: return dominfo['maxmem_kb'] else: return 0 def get_prefmem(self): untrusted_meminfo_key = xs.read('', '/local/domain/%s/memory/meminfo' % self.xid) if untrusted_meminfo_key is None or untrusted_meminfo_key == '': return 0 domain = qmemman.DomainState(self.xid) qmemman_algo.refresh_meminfo_for_domain(domain, untrusted_meminfo_key) domain.memory_maximum = self.get_mem_static_max()*1024 return qmemman_algo.prefmem(domain)/1024 def get_per_cpu_time(self): if dry_run: import random return random.random() * 100 dominfo = self.get_xc_dominfo() if dominfo: return dominfo['cpu_time']/dominfo['online_vcpus'] else: return 0 def get_disk_utilization_root_img(self): return qubes.qubesutils.get_disk_usage(self.root_img) def get_root_img_sz(self): if not os.path.exists(self.root_img): return 0 return os.path.getsize(self.root_img) def get_power_state(self): if dry_run: return "NA" dominfo = self.get_xc_dominfo() if dominfo: if dominfo['paused']: return "Paused" elif dominfo['crashed']: return "Crashed" elif dominfo['shutdown']: if dominfo['shutdown_reason'] == 2: return "Suspended" else: return "Halting" elif dominfo['dying']: return "Dying" else: if not self.is_fully_usable(): return "Transient" else: return "Running" else: return 'Halted' return "NA" def is_guid_running(self): xid = self.get_xid() if xid < 0: return False if not os.path.exists('/var/run/qubes/guid-running.%d' % xid): return False return True def is_qrexec_running(self): if self.xid < 0: return False return os.path.exists('/var/run/qubes/qrexec.%s' % self.name) def is_fully_usable(self): # Running gui-daemon implies also VM running if not self.is_guid_running(): return False if not self.is_qrexec_running(): return False return True def is_running(self): # in terms of Xen and internal logic - starting VM is running if self.get_power_state() in ["Running", "Transient", "Halting"]: return True else: return False def is_paused(self): if self.get_power_state() == "Paused": return True else: return False def get_start_time(self): if not self.is_running(): return None dominfo = self.get_xl_dominfo() uuid = self.get_uuid() start_time = xs.read('', "/vm/%s/start_time" % str(uuid)) if start_time != '': return datetime.datetime.fromtimestamp(float(start_time)) else: return None def is_outdated(self): # Makes sense only on VM based on template if self.template is None: return False if not self.is_running(): return False if not hasattr(self.template, 'rootcow_img'): return False rootimg_inode = os.stat(self.template.root_img) try: rootcow_inode = os.stat(self.template.rootcow_img) except OSError: # The only case when rootcow_img doesn't exists is in the middle of # commit_changes, so VM is outdated right now return True current_dmdev = "/dev/mapper/snapshot-{0:x}:{1}-{2:x}:{3}".format( rootimg_inode[2], rootimg_inode[1], rootcow_inode[2], rootcow_inode[1]) # 51712 (0xCA00) is xvda # backend node name not available through xenapi :( used_dmdev = xs.read('', "/local/domain/0/backend/vbd/{0}/51712/node".format(self.get_xid())) return used_dmdev != current_dmdev def get_disk_utilization(self): return qubes.qubesutils.get_disk_usage(self.dir_path) def get_disk_utilization_private_img(self): return qubes.qubesutils.get_disk_usage(self.private_img) def get_private_img_sz(self): if not os.path.exists(self.private_img): return 0 return os.path.getsize(self.private_img) def resize_private_img(self, size): assert size >= self.get_private_img_sz(), "Cannot shrink private.img" f_private = open (self.private_img, "a+b") f_private.truncate (size) f_private.close () retcode = 0 if self.is_running(): # find loop device p = subprocess.Popen (["sudo", "losetup", "--associated", self.private_img], stdout=subprocess.PIPE) result = p.communicate() m = re.match(r"^(/dev/loop\d+):\s", result[0]) if m is None: raise QubesException("ERROR: Cannot find loop device!") loop_dev = m.group(1) # resize loop device subprocess.check_call(["sudo", "losetup", "--set-capacity", loop_dev]) retcode = self.run("while [ \"`blockdev --getsize64 /dev/xvdb`\" -lt {0} ]; do ".format(size) + "head /dev/xvdb > /dev/null; sleep 0.2; done; resize2fs /dev/xvdb", user="root", wait=True) if retcode != 0: raise QubesException("resize2fs failed") # FIXME: should be outside of QubesVM? def get_timezone(self): # fc18 if os.path.islink('/etc/localtime'): return '/'.join(os.readlink('/etc/localtime').split('/')[-2:]) # <=fc17 elif os.path.exists('/etc/sysconfig/clock'): clock_config = open('/etc/sysconfig/clock', "r") clock_config_lines = clock_config.readlines() clock_config.close() zone_re = re.compile(r'^ZONE="(.*)"') for line in clock_config_lines: line_match = zone_re.match(line) if line_match: return line_match.group(1) else: # last resort way, some applications makes /etc/localtime # hardlink instead of symlink... tz_info = os.stat('/etc/localtime') if not tz_info: return None if tz_info.st_nlink > 1: p = subprocess.Popen(['find', '/usr/share/zoneinfo', '-inum', str(tz_info.st_ino)], stdout=subprocess.PIPE) tz_path = p.communicate()[0].strip() return tz_path.replace('/usr/share/zoneinfo/', '') return None def cleanup_vifs(self): """ Xend does not remove vif when backend domain is down, so we must do it manually """ if not self.is_running(): return dev_basepath = '/local/domain/%d/device/vif' % self.xid for dev in xs.ls('', dev_basepath): # check if backend domain is alive backend_xid = int(xs.read('', '%s/%s/backend-id' % (dev_basepath, dev))) if xl_ctx.domid_to_name(backend_xid) is not None: # check if device is still active if xs.read('', '%s/%s/state' % (dev_basepath, dev)) == '4': continue # remove dead device xs.rm('', '%s/%s' % (dev_basepath, dev)) def create_xenstore_entries(self, xid = None): if dry_run: return if xid is None: xid = self.xid domain_path = xs.get_domain_path(xid) # Set Xen Store entires with VM networking info: xs.write('', "{0}/qubes-vm-type".format(domain_path), self.type) xs.write('', "{0}/qubes-vm-updateable".format(domain_path), str(self.updateable)) if self.is_netvm(): xs.write('', "{0}/qubes-netvm-gateway".format(domain_path), self.gateway) xs.write('', "{0}/qubes-netvm-secondary-dns".format(domain_path), self.secondary_dns) xs.write('', "{0}/qubes-netvm-netmask".format(domain_path), self.netmask) xs.write('', "{0}/qubes-netvm-network".format(domain_path), self.network) if self.netvm is not None: xs.write('', "{0}/qubes-ip".format(domain_path), self.ip) xs.write('', "{0}/qubes-netmask".format(domain_path), self.netvm.netmask) xs.write('', "{0}/qubes-gateway".format(domain_path), self.netvm.gateway) xs.write('', "{0}/qubes-secondary-dns".format(domain_path), self.netvm.secondary_dns) tzname = self.get_timezone() if tzname: xs.write('', "{0}/qubes-timezone".format(domain_path), tzname) for srv in self.services.keys(): # convert True/False to "1"/"0" xs.write('', "{0}/qubes-service/{1}".format(domain_path, srv), str(int(self.services[srv]))) xs.write('', "{0}/qubes-block-devices".format(domain_path), '') xs.write('', "{0}/qubes-usb-devices".format(domain_path), '') xs.write('', "{0}/qubes-debug-mode".format(domain_path), str(int(self.debug))) # Fix permissions xs.set_permissions('', '{0}/device'.format(domain_path), [{ 'dom': xid }]) xs.set_permissions('', '{0}/memory'.format(domain_path), [{ 'dom': xid }]) xs.set_permissions('', '{0}/qubes-block-devices'.format(domain_path), [{ 'dom': xid }]) xs.set_permissions('', '{0}/qubes-usb-devices'.format(domain_path), [{ 'dom': xid }]) # fire hooks for hook in self.hooks_create_xenstore_entries: hook(self, xid=xid) def get_rootdev(self, source_template=None): if self.template: return "'script:snapshot:{dir}/root.img:{dir}/root-cow.img,xvda,r',".format(dir=self.template.dir_path) else: return "'script:file:{dir}/root.img,xvda,w',".format(dir=self.dir_path) def get_config_params(self, source_template=None): args = {} args['name'] = self.name if hasattr(self, 'kernels_dir'): args['kerneldir'] = self.kernels_dir args['vmdir'] = self.dir_path args['pcidev'] = str(self.pcidevs).strip('[]') args['mem'] = str(self.memory) if self.maxmem < self.memory: args['mem'] = str(self.maxmem) args['maxmem'] = str(self.maxmem) if 'meminfo-writer' in self.services and not self.services['meminfo-writer']: # If dynamic memory management disabled, set maxmem=mem args['maxmem'] = args['mem'] args['vcpus'] = str(self.vcpus) if self.netvm is not None: args['ip'] = self.ip args['mac'] = self.mac args['gateway'] = self.netvm.gateway args['dns1'] = self.netvm.gateway args['dns2'] = self.secondary_dns args['netmask'] = self.netmask args['netdev'] = "'mac={mac},script=/etc/xen/scripts/vif-route-qubes,ip={ip}".format(ip=self.ip, mac=self.mac) if self.netvm.qid != 0: args['netdev'] += ",backend={0}".format(self.netvm.name) args['netdev'] += "'" args['disable_network'] = ''; else: args['ip'] = '' args['mac'] = '' args['gateway'] = '' args['dns1'] = '' args['dns2'] = '' args['netmask'] = '' args['netdev'] = '' args['disable_network'] = '#'; args['rootdev'] = self.get_rootdev(source_template=source_template) args['privatedev'] = "'script:file:{dir}/private.img,xvdb,w',".format(dir=self.dir_path) args['volatiledev'] = "'script:file:{dir}/volatile.img,xvdc,w',".format(dir=self.dir_path) if hasattr(self, 'kernel'): modulesmode='r' if self.kernel is None: modulesmode='w' args['otherdevs'] = "'script:file:{dir}/modules.img,xvdd,{mode}',".format(dir=self.kernels_dir, mode=modulesmode) if hasattr(self, 'kernelopts'): args['kernelopts'] = self.kernelopts if self.debug: print >> sys.stderr, "--> Debug mode: adding 'earlyprintk=xen' to kernel opts" args['kernelopts'] += ' earlyprintk=xen' # fire hooks for hook in self.hooks_get_config_params: args = hook(self, args) return args @property def uses_custom_config(self): return self.conf_file != self.absolute_path(self.name + ".conf", None) def create_config_file(self, file_path = None, source_template = None, prepare_dvm = False): if file_path is None: file_path = self.conf_file if self.uses_custom_config: return if source_template is None: source_template = self.template f_conf_template = open(self.config_file_template, 'r') conf_template = f_conf_template.read() f_conf_template.close() template_params = self.get_config_params(source_template) if prepare_dvm: template_params['name'] = '%NAME%' template_params['privatedev'] = '' template_params['netdev'] = re.sub(r"ip=[0-9.]*", "ip=%IP%", template_params['netdev']) conf_appvm = open(file_path, "w") conf_appvm.write(conf_template.format(**template_params)) conf_appvm.close() def create_on_disk(self, verbose=False, source_template = None): if source_template is None: source_template = self.template assert source_template is not None if dry_run: return if verbose: print >> sys.stderr, "--> Creating directory: {0}".format(self.dir_path) os.mkdir (self.dir_path) if verbose: print >> sys.stderr, "--> Creating the VM config file: {0}".format(self.conf_file) self.create_config_file(source_template = source_template) template_priv = source_template.private_img if verbose: print >> sys.stderr, "--> Copying the template's private image: {0}".\ format(template_priv) # We prefer to use Linux's cp, because it nicely handles sparse files retcode = subprocess.call (["cp", template_priv, self.private_img]) if retcode != 0: raise IOError ("Error while copying {0} to {1}".\ format(template_priv, self.private_img)) if self.updateable: template_root = source_template.root_img if verbose: print >> sys.stderr, "--> Copying the template's root image: {0}".\ format(template_root) # We prefer to use Linux's cp, because it nicely handles sparse files retcode = subprocess.call (["cp", template_root, self.root_img]) if retcode != 0: raise IOError ("Error while copying {0} to {1}".\ format(template_root, self.root_img)) kernels_dir = source_template.kernels_dir if verbose: print >> sys.stderr, "--> Copying the kernel (set kernel \"none\" to use it): {0}".\ format(kernels_dir) os.mkdir (self.dir_path + '/kernels') for f in ("vmlinuz", "initramfs", "modules.img"): shutil.copy(os.path.join(kernels_dir, f), os.path.join(self.dir_path, vm_files["kernels_subdir"], f)) # Create volatile.img self.reset_volatile_storage(source_template = source_template, verbose=verbose) if verbose: print >> sys.stderr, "--> Creating icon symlink: {0} -> {1}".format(self.icon_path, self.label.icon_path) os.symlink (self.label.icon_path, self.icon_path) # fire hooks for hook in self.hooks_create_on_disk: hook(self, verbose, source_template=source_template) def get_clone_attrs(self): attrs = ['kernel', 'uses_default_kernel', 'netvm', 'uses_default_netvm', \ 'memory', 'maxmem', 'kernelopts', 'uses_default_kernelopts', 'services', 'vcpus', \ '_mac', 'pcidevs', 'include_in_backups', '_label', 'default_user'] # fire hooks for hook in self.hooks_get_clone_attrs: attrs = hook(self, attrs) return attrs def clone_attrs(self, src_vm, fail_on_error=True): self._do_not_reset_firewall = True for prop in self.get_clone_attrs(): try: setattr(self, prop, getattr(src_vm, prop)) except Exception as e: if fail_on_error: self._do_not_reset_firewall = False raise else: print >>sys.stderr, "WARNING: %s" % str(e) self._do_not_reset_firewall = False def clone_disk_files(self, src_vm, verbose): if dry_run: return if src_vm.is_running(): raise QubesException("Attempt to clone a running VM!") if verbose: print >> sys.stderr, "--> Creating directory: {0}".format(self.dir_path) os.mkdir (self.dir_path) if src_vm.private_img is not None and self.private_img is not None: if verbose: print >> sys.stderr, "--> Copying the private image:\n{0} ==>\n{1}".\ format(src_vm.private_img, self.private_img) # We prefer to use Linux's cp, because it nicely handles sparse files retcode = subprocess.call (["cp", src_vm.private_img, self.private_img]) if retcode != 0: raise IOError ("Error while copying {0} to {1}".\ format(src_vm.private_img, self.private_img)) if src_vm.updateable and src_vm.root_img is not None and self.root_img is not None: if verbose: print >> sys.stderr, "--> Copying the root image:\n{0} ==>\n{1}".\ format(src_vm.root_img, self.root_img) # We prefer to use Linux's cp, because it nicely handles sparse files retcode = subprocess.call (["cp", src_vm.root_img, self.root_img]) if retcode != 0: raise IOError ("Error while copying {0} to {1}".\ format(src_vm.root_img, self.root_img)) if src_vm.icon_path is not None and self.icon_path is not None: if os.path.exists (src_vm.dir_path): if os.path.islink(src_vm.icon_path): icon_path = os.readlink(src_vm.icon_path) if verbose: print >> sys.stderr, "--> Creating icon symlink: {0} -> {1}".format(self.icon_path, icon_path) os.symlink (icon_path, self.icon_path) else: if verbose: print >> sys.stderr, "--> Copying icon: {0} -> {1}".format(src_vm.icon_path, self.icon_path) shutil.copy(src_vm.icon_path, self.icon_path) # fire hooks for hook in self.hooks_clone_disk_files: hook(self, src_vm, verbose) def verify_files(self): if dry_run: return if not os.path.exists (self.dir_path): raise QubesException ( "VM directory doesn't exist: {0}".\ format(self.dir_path)) if self.updateable and not os.path.exists (self.root_img): raise QubesException ( "VM root image file doesn't exist: {0}".\ format(self.root_img)) if not os.path.exists (self.private_img): raise QubesException ( "VM private image file doesn't exist: {0}".\ format(self.private_img)) if not os.path.exists (os.path.join(self.kernels_dir, 'vmlinuz')): raise QubesException ( "VM kernel does not exists: {0}".\ format(os.path.join(self.kernels_dir, 'vmlinuz'))) if not os.path.exists (os.path.join(self.kernels_dir, 'initramfs')): raise QubesException ( "VM initramfs does not exists: {0}".\ format(os.path.join(self.kernels_dir, 'initramfs'))) if not os.path.exists (os.path.join(self.kernels_dir, 'modules.img')): raise QubesException ( "VM kernel modules image does not exists: {0}".\ format(os.path.join(self.kernels_dir, 'modules.img'))) # fire hooks for hook in self.hooks_verify_files: hook(self) return True def reset_volatile_storage(self, source_template = None, verbose = False): assert not self.is_running(), "Attempt to clean volatile image of running VM!" if source_template is None: source_template = self.template # Only makes sense on template based VM if source_template is None: # For StandaloneVM create it only if not already exists (eg after backup-restore) if not os.path.exists(self.volatile_img): if verbose: print >> sys.stderr, "--> Creating volatile image: {0}...".format (self.volatile_img) f_root = open (self.root_img, "r") f_root.seek(0, os.SEEK_END) root_size = f_root.tell() f_root.close() subprocess.check_call([system_path["prepare_volatile_img_cmd"], self.volatile_img, str(root_size / 1024 / 1024)]) return if verbose: print >> sys.stderr, "--> Cleaning volatile image: {0}...".format (self.volatile_img) if dry_run: return if os.path.exists (self.volatile_img): os.remove (self.volatile_img) if hasattr(source_template, 'clean_volatile_img'): retcode = subprocess.call (["tar", "xf", source_template.clean_volatile_img, "-C", self.dir_path]) if retcode != 0: raise IOError ("Error while unpacking {0} to {1}".\ format(source_template.clean_volatile_img, self.volatile_img)) def remove_from_disk(self): if dry_run: return # fire hooks for hook in self.hooks_remove_from_disk: hook(self) shutil.rmtree (self.dir_path) def write_firewall_conf(self, conf): defaults = self.get_firewall_conf() expiring_rules_present = False for item in defaults.keys(): if item not in conf: conf[item] = defaults[item] root = lxml.etree.Element( "QubesFirewallRules", policy = "allow" if conf["allow"] else "deny", dns = "allow" if conf["allowDns"] else "deny", icmp = "allow" if conf["allowIcmp"] else "deny", yumProxy = "allow" if conf["allowYumProxy"] else "deny" ) for rule in conf["rules"]: # For backward compatibility if "proto" not in rule: if rule["portBegin"] is not None and rule["portBegin"] > 0: rule["proto"] = "tcp" else: rule["proto"] = "any" element = lxml.etree.Element( "rule", address=rule["address"], proto=str(rule["proto"]), ) if rule["netmask"] is not None and rule["netmask"] != 32: element.set("netmask", str(rule["netmask"])) if rule.get("portBegin", None) is not None and \ rule["portBegin"] > 0: element.set("port", str(rule["portBegin"])) if rule.get("portEnd", None) is not None and rule["portEnd"] > 0: element.set("toport", str(rule["portEnd"])) if "expire" in rule: element.set("expire", str(rule["expire"])) expiring_rules_present = True root.append(element) tree = lxml.etree.ElementTree(root) try: f = open(self.firewall_conf, 'a') # create the file if not exist f.close() with open(self.firewall_conf, 'w') as f: fcntl.lockf(f, fcntl.LOCK_EX) tree.write(f, encoding="UTF-8", pretty_print=True) fcntl.lockf(f, fcntl.LOCK_UN) f.close() except EnvironmentError as err: print >> sys.stderr, "{0}: save error: {1}".format( os.path.basename(sys.argv[0]), err) return False # Automatically enable/disable 'yum-proxy-setup' service based on allowYumProxy if conf['allowYumProxy']: self.services['yum-proxy-setup'] = True else: if self.services.has_key('yum-proxy-setup'): self.services.pop('yum-proxy-setup') if expiring_rules_present: subprocess.call(["sudo", "systemctl", "start", "qubes-reload-firewall@%s.timer" % self.name]) return True def has_firewall(self): return os.path.exists (self.firewall_conf) def get_firewall_defaults(self): return { "rules": list(), "allow": True, "allowDns": True, "allowIcmp": True, "allowYumProxy": False } def get_firewall_conf(self): conf = self.get_firewall_defaults() try: tree = lxml.etree.parse(self.firewall_conf) root = tree.getroot() conf["allow"] = (root.get("policy") == "allow") conf["allowDns"] = (root.get("dns") == "allow") conf["allowIcmp"] = (root.get("icmp") == "allow") conf["allowYumProxy"] = (root.get("yumProxy") == "allow") for element in root: rule = {} attr_list = ("address", "netmask", "proto", "port", "toport", "expire") for attribute in attr_list: rule[attribute] = element.get(attribute) if rule["netmask"] is not None: rule["netmask"] = int(rule["netmask"]) else: rule["netmask"] = 32 if rule["port"] is not None: rule["portBegin"] = int(rule["port"]) else: # backward compatibility rule["portBegin"] = 0 # For backward compatibility if rule["proto"] is None: if rule["portBegin"] > 0: rule["proto"] = "tcp" else: rule["proto"] = "any" if rule["toport"] is not None: rule["portEnd"] = int(rule["toport"]) else: rule["portEnd"] = None if rule["expire"] is not None: rule["expire"] = int(rule["expire"]) if rule["expire"] <= int(datetime.datetime.now().strftime( "%s")): continue else: del(rule["expire"]) del(rule["port"]) del(rule["toport"]) conf["rules"].append(rule) except EnvironmentError as err: return conf except (xml.parsers.expat.ExpatError, ValueError, LookupError) as err: print("{0}: load error: {1}".format( os.path.basename(sys.argv[0]), err)) return None return conf def pci_add(self, pci): if not os.path.exists('/sys/bus/pci/devices/0000:%s' % pci): raise QubesException("Invalid PCI device: %s" % pci) if self.pcidevs.count(pci): # already added return self.pcidevs.append(pci) if self.is_running(): try: subprocess.check_call(['sudo', system_path["qubes_pciback_cmd"], pci]) subprocess.check_call(['sudo', 'xl', 'pci-attach', str(self.xid), pci]) except Exception as e: print >>sys.stderr, "Failed to attach PCI device on the fly " \ "(%s), changes will be seen after VM restart" % str(e) def pci_remove(self, pci): if not self.pcidevs.count(pci): # not attached return self.pcidevs.remove(pci) if self.is_running(): p = subprocess.Popen(['xl', 'pci-list', str(self.xid)], stdout=subprocess.PIPE) result = p.communicate() m = re.search(r"^(\d+.\d+)\s+0000:%s$" % pci, result[0], flags=re.MULTILINE) if not m: print >>sys.stderr, "Device %s already detached" % pci return vmdev = m.group(1) try: self.run_service("qubes.DetachPciDevice", user="root", input="00:%s" % vmdev) subprocess.check_call(['sudo', 'xl', 'pci-detach', str(self.xid), pci]) except Exception as e: print >>sys.stderr, "Failed to detach PCI device on the fly " \ "(%s), changes will be seen after VM restart" % str(e) def run(self, command, user = None, verbose = True, autostart = False, notify_function = None, passio = False, passio_popen = False, passio_stderr=False, ignore_stderr=False, localcmd = None, wait = False, gui = True, filter_esc = False): """command should be in form 'cmdline' When passio_popen=True, popen object with stdout connected to pipe. When additionally passio_stderr=True, stderr also is connected to pipe. When ignore_stderr=True, stderr is connected to /dev/null. """ if user is None: user = self.default_user null = None if not self.is_running() and not self.is_paused(): if not autostart: raise QubesException("VM not running") try: if notify_function is not None: notify_function ("info", "Starting the '{0}' VM...".format(self.name)) elif verbose: print >> sys.stderr, "Starting the VM '{0}'...".format(self.name) xid = self.start(verbose=verbose, start_guid = gui, notify_function=notify_function) except (IOError, OSError, QubesException) as err: raise QubesException("Error while starting the '{0}' VM: {1}".format(self.name, err)) except (MemoryError) as err: raise QubesException("Not enough memory to start '{0}' VM! " "Close one or more running VMs and try " "again.".format(self.name)) if self.is_paused(): raise QubesException("VM is paused") if not self.is_qrexec_running(): raise QubesException( "Domain '{}': qrexec not connected.".format(self.name)) xid = self.get_xid() if gui and os.getenv("DISPLAY") is not None and not self.is_guid_running(): self.start_guid(verbose = verbose, notify_function = notify_function) args = [system_path["qrexec_client_path"], "-d", str(xid), "%s:%s" % (user, command)] if localcmd is not None: args += [ "-l", localcmd] if filter_esc: args += ["-t"] if os.isatty(sys.stderr.fileno()): args += ["-T"] if passio: os.execv(system_path["qrexec_client_path"], args) exit(1) call_kwargs = {} if ignore_stderr: null = open("/dev/null", "w") call_kwargs['stderr'] = null if passio_popen: popen_kwargs={'stdout': subprocess.PIPE} popen_kwargs['stdin'] = subprocess.PIPE if passio_stderr: popen_kwargs['stderr'] = subprocess.PIPE else: popen_kwargs['stderr'] = call_kwargs.get('stderr', None) p = subprocess.Popen (args, **popen_kwargs) if null: null.close() return p if not wait: args += ["-e"] retcode = subprocess.call(args, **call_kwargs) if null: null.close() return retcode def run_service(self, service, source="dom0", user=None, passio_popen = False, input=None): if input and passio_popen: raise ValueError("'input' and 'passio_popen' cannot be used " "together") if input: return self.run("QUBESRPC %s %s" % (service, source), localcmd="echo %s" % input, user=user, wait=True) else: return self.run("QUBESRPC %s %s" % (service, source), passio_popen=passio_popen, user=user, wait=True) def attach_network(self, verbose = False, wait = True, netvm = None): if dry_run: return if not self.is_running(): raise QubesException ("VM not running!") if netvm is None: netvm = self.netvm if netvm is None: raise QubesException ("NetVM not set!") if netvm.qid != 0: if not netvm.is_running(): if verbose: print >> sys.stderr, "--> Starting NetVM {0}...".format(netvm.name) netvm.start() xs_path = '/local/domain/%d/device/vif/0/state' % (self.xid) if xs.read('', xs_path) is not None: # TODO: check its state and backend state (this can be stale vif after NetVM restart) if verbose: print >> sys.stderr, "NOTICE: Network already attached" return xm_cmdline = ["/usr/sbin/xl", "network-attach", str(self.xid), "script=/etc/xen/scripts/vif-route-qubes", "ip="+self.ip, "backend="+netvm.name ] retcode = subprocess.call (xm_cmdline) if retcode != 0: print >> sys.stderr, ("WARNING: Cannot attach to network to '{0}'!".format(self.name)) if wait: tries = 0 while xs.read('', xs_path) != '4': tries += 1 if tries > 50: raise QubesException ("Network attach timed out!") time.sleep(0.2) def wait_for_session(self, notify_function = None): #self.run('echo $$ >> /tmp/qubes-session-waiter; [ ! -f /tmp/qubes-session-env ] && exec sleep 365d', ignore_stderr=True, gui=False, wait=True) # Note : User root is redefined to SYSTEM in the Windows agent code p = self.run('QUBESRPC qubes.WaitForSession none', user="root", passio_popen=True, gui=False, wait=True) p.communicate(input=self.default_user) def start_guid(self, verbose = True, notify_function = None, extra_guid_args=[], before_qrexec=False): if verbose: print >> sys.stderr, "--> Starting Qubes GUId..." xid = self.get_xid() guid_cmd = [system_path["qubes_guid_path"], "-d", str(xid), "-c", self.label.color, "-i", self.label.icon_path, "-l", str(self.label.index)] guid_cmd += extra_guid_args if self.debug: guid_cmd += ['-v', '-v'] elif not verbose: guid_cmd += ['-q'] retcode = subprocess.call (guid_cmd) if (retcode != 0) : raise QubesException("Cannot start qubes-guid!") if verbose: print >> sys.stderr, "--> Sending monitor layout..." try: subprocess.call([system_path["monitor_layout_notify_cmd"], self.name]) except Exception as e: print >>sys.stderr, "ERROR: %s" % e if verbose: print >> sys.stderr, "--> Waiting for qubes-session..." self.wait_for_session(notify_function) def start_qrexec_daemon(self, verbose = False, notify_function = None): if verbose: print >> sys.stderr, "--> Starting the qrexec daemon..." xid = self.get_xid() qrexec_args = [str(xid), self.name, self.default_user] if not verbose: qrexec_args.insert(0, "-q") qrexec_env = os.environ qrexec_env['QREXEC_STARTUP_TIMEOUT'] = str(self.qrexec_timeout) retcode = subprocess.call ([system_path["qrexec_daemon_path"]] + qrexec_args, env=qrexec_env) if (retcode != 0) : raise OSError ("Cannot execute qrexec-daemon!") def start(self, debug_console = False, verbose = False, preparing_dvm = False, start_guid = True, notify_function = None, mem_required = None): if dry_run: return # Intentionally not used is_running(): eliminate also "Paused", "Crashed", "Halting" if self.get_power_state() != "Halted": raise QubesException ("VM is already running!") self.verify_files() if self.netvm is not None: if self.netvm.qid != 0: if not self.netvm.is_running(): if verbose: print >> sys.stderr, "--> Starting NetVM {0}...".format(self.netvm.name) self.netvm.start(verbose = verbose, start_guid = start_guid, notify_function = notify_function) self.reset_volatile_storage(verbose=verbose) if verbose: print >> sys.stderr, "--> Loading the VM (type = {0})...".format(self.type) # refresh config file self.create_config_file() if mem_required is None: mem_required = int(self.memory) * 1024 * 1024 qmemman_client = QMemmanClient() try: got_memory = qmemman_client.request_memory(mem_required) except IOError as e: raise IOError("ERROR: Failed to connect to qmemman: %s" % str(e)) if not got_memory: qmemman_client.close() raise MemoryError ("ERROR: insufficient memory to start VM '%s'" % self.name) # Bind pci devices to pciback driver for pci in self.pcidevs: try: subprocess.check_call(['sudo', system_path["qubes_pciback_cmd"], pci]) except subprocess.CalledProcessError: raise QubesException("Failed to prepare PCI device %s" % pci) xl_cmdline = ['sudo', '/usr/sbin/xl', 'create', self.conf_file, '-q', '-p'] try: subprocess.check_call(xl_cmdline) except: try: self._cleanup_zombie_domains() except: pass raise QubesException("Failed to load VM config") xid = self.get_xid() self.xid = xid if preparing_dvm: self.services['qubes-dvm'] = True if verbose: print >> sys.stderr, "--> Setting Xen Store info for the VM..." self.create_xenstore_entries(xid) qvm_collection = QubesVmCollection() qvm_collection.lock_db_for_reading() qvm_collection.load() qvm_collection.unlock_db() if verbose: print >> sys.stderr, "--> Updating firewall rules..." for vm in qvm_collection.values(): if vm.is_proxyvm() and vm.is_running(): vm.write_iptables_xenstore_entry() # fire hooks for hook in self.hooks_start: hook(self, verbose = verbose, preparing_dvm = preparing_dvm, start_guid = start_guid, notify_function = notify_function) if verbose: print >> sys.stderr, "--> Starting the VM..." xc.domain_unpause(xid) # close() is not really needed, because the descriptor is close-on-exec # anyway, the reason to postpone close() is that possibly xl is not done # constructing the domain after its main process exits # so we close() when we know the domain is up # the successful unpause is some indicator of it qmemman_client.close() if self._start_guid_first and start_guid and not preparing_dvm and os.path.exists('/var/run/shm.id'): self.start_guid(verbose=verbose, notify_function=notify_function, before_qrexec=True) if not preparing_dvm: self.start_qrexec_daemon(verbose=verbose,notify_function=notify_function) if start_guid and not preparing_dvm and os.path.exists('/var/run/shm.id'): self.start_guid(verbose=verbose, notify_function=notify_function) if preparing_dvm: if verbose: print >> sys.stderr, "--> Preparing config template for DispVM" self.create_config_file(file_path = self.dir_path + '/dvm.conf', prepare_dvm = True) return xid def _cleanup_zombie_domains(self): """ This function is workaround broken libxl (which leaves not fully created domain on failure) and vchan on domain crash behaviour @return: None """ xc = self.get_xc_dominfo() if xc and xc['dying'] == 1: # GUID still running? guid_pidfile = '/var/run/qubes/guid-running.%d' % xc['domid'] if os.path.exists(guid_pidfile): guid_pid = open(guid_pidfile).read().strip() os.kill(int(guid_pid), 15) # qrexec still running? if self.is_qrexec_running(): #TODO: kill qrexec daemon pass def shutdown(self, force=False, xid = None): if dry_run: return if not self.is_running(): raise QubesException ("VM already stopped!") subprocess.call (['/usr/sbin/xl', 'shutdown', str(xid) if xid is not None else self.name]) #xc.domain_destroy(self.get_xid()) def force_shutdown(self, xid = None): if dry_run: return if not self.is_running() and not self.is_paused(): raise QubesException ("VM already stopped!") subprocess.call(['sudo', '/usr/sbin/xl', 'destroy', str(xid) if xid is not None else self.name]) def suspend(self): if dry_run: return if not self.is_running() and not self.is_paused(): raise QubesException ("VM already stopped!") if len (self.pcidevs) > 0: xs_path = '/local/domain/%d/control/shutdown' % self.get_xid() xs.write('', xs_path, 'suspend') tries = 0 while self.get_power_state() != "Suspended": tries += 1 if tries > 15: # fallback to pause print >>sys.stderr, "Failed to suspend domain %s, falling back to pause method" % self.name self.pause() break time.sleep(0.2) else: self.pause() def resume(self): if dry_run: return xc_info = self.get_xc_dominfo() if not xc_info: raise QubesException ("VM isn't started (cannot get xc_dominfo)!") if xc_info['shutdown_reason'] == 2: # suspended xc.domain_resume(xc_info['domid'], 1) xs.resume_domain(xc_info['domid']) else: self.unpause() def pause(self): if dry_run: return xc.domain_pause(self.get_xid()) def unpause(self): if dry_run: return xc.domain_unpause(self.get_xid()) def get_xml_attrs(self): attrs = {} attrs_config = self.get_attrs_config() for attr in attrs_config: attr_config = attrs_config[attr] if 'save' in attr_config: if 'save_skip' in attr_config: if callable(attr_config['save_skip']): if attr_config['save_skip'](): continue elif eval(attr_config['save_skip']): continue if callable(attr_config['save']): value = attr_config['save']() else: value = eval(attr_config['save']) if 'save_attr' in attr_config: attrs[attr_config['save_attr']] = value else: attrs[attr] = value return attrs def create_xml_element(self): # Compatibility hack (Qubes*VM in type vs Qubes*Vm in XML)... rx_type = re.compile (r"VM") attrs = self.get_xml_attrs() element = lxml.etree.Element( "Qubes" + rx_type.sub("Vm", self.type), **attrs) return element register_qubes_vm_class(QubesVm)