gns3-server/gns3server/modules/virtualbox/virtualbox_vm.py
2015-01-20 16:37:18 +01:00

1041 lines
39 KiB
Python

# -*- coding: utf-8 -*-
#
# Copyright (C) 2014 GNS3 Technologies Inc.
#
# 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 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
"""
VirtualBox VM instance.
"""
import sys
import shlex
import re
import os
import subprocess
import tempfile
import json
import socket
import time
import asyncio
from .virtualbox_error import VirtualBoxError
from ..adapters.ethernet_adapter import EthernetAdapter
from ..attic import find_unused_port
from .telnet_server import TelnetServer
from ..base_vm import BaseVM
if sys.platform.startswith('win'):
import msvcrt
import win32file
import logging
log = logging.getLogger(__name__)
class VirtualBoxVM(BaseVM):
"""
VirtualBox VM implementation.
"""
_instances = []
_allocated_console_ports = []
def __init__(self, name, uuid, manager):
super().__init__(name, uuid, manager)
self._system_properties = {}
# FIXME: harcoded values
if sys.platform.startswith("win"):
self._vboxmanage_path = r"C:\Program Files\Oracle\VirtualBox\VBoxManage.exe"
else:
self._vboxmanage_path = "/usr/bin/vboxmanage"
self._queue = asyncio.Queue()
self._created = asyncio.Future()
self._worker = asyncio.async(self._run())
return
self._linked_clone = linked_clone
self._working_dir = None
self._command = []
self._vboxmanage_path = vboxmanage_path
self._vbox_user = vbox_user
self._started = False
self._console_host = console_host
self._console_start_port_range = console_start_port_range
self._console_end_port_range = console_end_port_range
self._telnet_server_thread = None
self._serial_pipe = None
# VirtualBox settings
self._console = console
self._ethernet_adapters = []
self._headless = False
self._enable_remote_console = True
self._vmname = vmname
self._adapter_start_index = 0
self._adapter_type = "Intel PRO/1000 MT Desktop (82540EM)"
working_dir_path = os.path.join(working_dir, "vbox")
if vbox_id and not os.path.isdir(working_dir_path):
raise VirtualBoxError("Working directory {} doesn't exist".format(working_dir_path))
# create the device own working directory
self.working_dir = working_dir_path
if not self._console:
# allocate a console port
try:
self._console = find_unused_port(self._console_start_port_range,
self._console_end_port_range,
self._console_host,
ignore_ports=self._allocated_console_ports)
except Exception as e:
raise VirtualBoxError(e)
if self._console in self._allocated_console_ports:
raise VirtualBoxError("Console port {} is already used by another VirtualBox VM".format(console))
self._allocated_console_ports.append(self._console)
self._system_properties = {}
properties = self._execute("list", ["systemproperties"])
for prop in properties:
try:
name, value = prop.split(':', 1)
except ValueError:
continue
self._system_properties[name.strip()] = value.strip()
if linked_clone:
if vbox_id and os.path.isdir(os.path.join(self.working_dir, self._vmname)):
vbox_file = os.path.join(self.working_dir, self._vmname, self._vmname + ".vbox")
self._execute("registervm", [vbox_file])
self._reattach_hdds()
else:
self._create_linked_clone()
self._maximum_adapters = 8
self.adapters = 2 # creates 2 adapters by default
log.info("VirtualBox VM {name} [id={id}] has been created".format(name=self._name,
id=self._id))
@asyncio.coroutine
def _execute(self, subcommand, args, timeout=60):
command = [self._vboxmanage_path, "--nologo", subcommand]
command.extend(args)
try:
process = yield from asyncio.create_subprocess_exec(*command, stdout=asyncio.subprocess.PIPE, stderr=asyncio.subprocess.PIPE)
except (OSError, subprocess.SubprocessError) as e:
raise VirtualBoxError("Could not execute VBoxManage: {}".format(e))
try:
stdout_data, stderr_data = yield from asyncio.wait_for(process.communicate(), timeout=timeout)
except asyncio.TimeoutError:
raise VirtualBoxError("VBoxManage has timed out after {} seconds!".format(timeout))
if process.returncode:
# only the first line of the output is useful
vboxmanage_error = stderr_data.decode("utf-8", errors="ignore").splitlines()[0]
raise VirtualBoxError(vboxmanage_error)
return stdout_data.decode("utf-8", errors="ignore").splitlines()
@asyncio.coroutine
def _get_system_properties(self):
properties = yield from self._execute("list", ["systemproperties"])
for prop in properties:
try:
name, value = prop.split(':', 1)
except ValueError:
continue
self._system_properties[name.strip()] = value.strip()
@asyncio.coroutine
def _run(self):
try:
yield from self._get_system_properties()
self._created.set_result(True)
except VirtualBoxError as e:
self._created.set_exception(e)
return
while True:
future, subcommand, args = yield from self._queue.get()
try:
yield from self._execute(subcommand, args)
future.set_result(True)
except VirtualBoxError as e:
future.set_exception(e)
def create(self):
return self._created
def _put(self, item):
try:
self._queue.put_nowait(item)
except asyncio.qeues.QueueFull:
raise VirtualBoxError("Queue is full")
def start(self):
args = [self._name]
future = asyncio.Future()
self._put((future, "startvm", args))
return future
def stop(self):
args = [self._name, "poweroff"]
future = asyncio.Future()
self._put((future, "controlvm", args))
return future
def defaults(self):
"""
Returns all the default attribute values for this VirtualBox VM.
:returns: default values (dictionary)
"""
vbox_defaults = {"name": self._name,
"vmname": self._vmname,
"adapters": self.adapters,
"adapter_start_index": self._adapter_start_index,
"adapter_type": "Intel PRO/1000 MT Desktop (82540EM)",
"console": self._console,
"enable_remote_console": self._enable_remote_console,
"headless": self._headless}
return vbox_defaults
@property
def working_dir(self):
"""
Returns current working directory
:returns: path to the working directory
"""
return self._working_dir
@working_dir.setter
def working_dir(self, working_dir):
"""
Sets the working directory this VirtualBox VM.
:param working_dir: path to the working directory
"""
try:
os.makedirs(working_dir)
except FileExistsError:
pass
except OSError as e:
raise VirtualBoxError("Could not create working directory {}: {}".format(working_dir, e))
self._working_dir = working_dir
log.info("VirtualBox VM {name} [id={id}]: working directory changed to {wd}".format(name=self._name,
id=self._id,
wd=self._working_dir))
@property
def console(self):
"""
Returns the TCP console port.
:returns: console port (integer)
"""
return self._console
@console.setter
def console(self, console):
"""
Sets the TCP console port.
:param console: console port (integer)
"""
if console in self._allocated_console_ports:
raise VirtualBoxError("Console port {} is already used by another VirtualBox VM".format(console))
self._allocated_console_ports.remove(self._console)
self._console = console
self._allocated_console_ports.append(self._console)
log.info("VirtualBox VM {name} [id={id}]: console port set to {port}".format(name=self._name,
id=self._id,
port=console))
def _get_all_hdd_files(self):
hdds = []
properties = self._execute("list", ["hdds"])
for prop in properties:
try:
name, value = prop.split(':', 1)
except ValueError:
continue
if name.strip() == "Location":
hdds.append(value.strip())
return hdds
def _reattach_hdds(self):
hdd_info_file = os.path.join(self._working_dir, self._vmname, "hdd_info.json")
try:
with open(hdd_info_file, "r") as f:
# log.info("loading project: {}".format(path))
hdd_table = json.load(f)
except OSError as e:
raise VirtualBoxError("Could not read HDD info file: {}".format(e))
for hdd_info in hdd_table:
hdd_file = os.path.join(self._working_dir, self._vmname, "Snapshots", hdd_info["hdd"])
if os.path.exists(hdd_file):
log.debug("reattaching hdd {}".format(hdd_file))
self._storage_attach('--storagectl "{}" --port {} --device {} --type hdd --medium "{}"'.format(hdd_info["controller"],
hdd_info["port"],
hdd_info["device"],
hdd_file))
def delete(self):
"""
Deletes this VirtualBox VM.
"""
self.stop()
if self._id in self._instances:
self._instances.remove(self._id)
if self.console and self.console in self._allocated_console_ports:
self._allocated_console_ports.remove(self.console)
if self._linked_clone:
hdd_table = []
if os.path.exists(self._working_dir):
hdd_files = self._get_all_hdd_files()
vm_info = self._get_vm_info()
for entry, value in vm_info.items():
match = re.search("^([\s\w]+)\-(\d)\-(\d)$", entry)
if match:
controller = match.group(1)
port = match.group(2)
device = match.group(3)
if value in hdd_files:
self._storage_attach('--storagectl "{}" --port {} --device {} --type hdd --medium none'.format(controller, port, device))
hdd_table.append(
{
"hdd": os.path.basename(value),
"controller": controller,
"port": port,
"device": device,
}
)
self._execute("unregistervm", [self._vmname])
if hdd_table:
try:
hdd_info_file = os.path.join(self._working_dir, self._vmname, "hdd_info.json")
with open(hdd_info_file, "w") as f:
# log.info("saving project: {}".format(path))
json.dump(hdd_table, f, indent=4)
except OSError as e:
raise VirtualBoxError("Could not write HDD info file: {}".format(e))
log.info("VirtualBox VM {name} [id={id}] has been deleted".format(name=self._name,
id=self._id))
def clean_delete(self):
"""
Deletes this VirtualBox VM & all files.
"""
self.stop()
if self._id in self._instances:
self._instances.remove(self._id)
if self.console:
self._allocated_console_ports.remove(self.console)
if self._linked_clone:
self._execute("unregistervm", [self._vmname, "--delete"])
# try:
# shutil.rmtree(self._working_dir)
# except OSError as e:
# log.error("could not delete VirtualBox VM {name} [id={id}]: {error}".format(name=self._name,
# id=self._id,
# error=e))
# return
log.info("VirtualBox VM {name} [id={id}] has been deleted (including associated files)".format(name=self._name,
id=self._id))
@property
def headless(self):
"""
Returns either the VM will start in headless mode
:returns: boolean
"""
return self._headless
@headless.setter
def headless(self, headless):
"""
Sets either the VM will start in headless mode
:param headless: boolean
"""
if headless:
log.info("VirtualBox VM {name} [id={id}] has enabled the headless mode".format(name=self._name, id=self._id))
else:
log.info("VirtualBox VM {name} [id={id}] has disabled the headless mode".format(name=self._name, id=self._id))
self._headless = headless
@property
def enable_remote_console(self):
"""
Returns either the remote console is enabled or not
:returns: boolean
"""
return self._enable_remote_console
@enable_remote_console.setter
def enable_remote_console(self, enable_remote_console):
"""
Sets either the console is enabled or not
:param enable_remote_console: boolean
"""
if enable_remote_console:
log.info("VirtualBox VM {name} [id={id}] has enabled the console".format(name=self._name, id=self._id))
self._start_remote_console()
else:
log.info("VirtualBox VM {name} [id={id}] has disabled the console".format(name=self._name, id=self._id))
self._stop_remote_console()
self._enable_remote_console = enable_remote_console
@property
def vmname(self):
"""
Returns the VM name associated with this VirtualBox VM.
:returns: VirtualBox VM name
"""
return self._vmname
@vmname.setter
def vmname(self, vmname):
"""
Sets the VM name associated with this VirtualBox VM.
:param vmname: VirtualBox VM name
"""
log.info("VirtualBox VM {name} [id={id}] has set the VM name to {vmname}".format(name=self._name, id=self._id, vmname=vmname))
if self._linked_clone:
self._modify_vm('--name "{}"'.format(vmname))
self._vmname = vmname
@property
def adapters(self):
"""
Returns the number of Ethernet adapters for this VirtualBox VM instance.
:returns: number of adapters
"""
return len(self._ethernet_adapters)
@adapters.setter
def adapters(self, adapters):
"""
Sets the number of Ethernet adapters for this VirtualBox VM instance.
:param adapters: number of adapters
"""
# check for the maximum adapters supported by the VM
self._maximum_adapters = self._get_maximum_supported_adapters()
if len(self._ethernet_adapters) > self._maximum_adapters:
raise VirtualBoxError("Number of adapters above the maximum supported of {}".format(self._maximum_adapters))
self._ethernet_adapters.clear()
for adapter_id in range(0, self._adapter_start_index + adapters):
if adapter_id < self._adapter_start_index:
self._ethernet_adapters.append(None)
continue
self._ethernet_adapters.append(EthernetAdapter())
log.info("VirtualBox VM {name} [id={id}]: number of Ethernet adapters changed to {adapters}".format(name=self._name,
id=self._id,
adapters=adapters))
@property
def adapter_start_index(self):
"""
Returns the adapter start index for this VirtualBox VM instance.
:returns: index
"""
return self._adapter_start_index
@adapter_start_index.setter
def adapter_start_index(self, adapter_start_index):
"""
Sets the adapter start index for this VirtualBox VM instance.
:param adapter_start_index: index
"""
self._adapter_start_index = adapter_start_index
self.adapters = self.adapters # this forces to recreate the adapter list with the correct index
log.info("VirtualBox VM {name} [id={id}]: adapter start index changed to {index}".format(name=self._name,
id=self._id,
index=adapter_start_index))
@property
def adapter_type(self):
"""
Returns the adapter type for this VirtualBox VM instance.
:returns: adapter type (string)
"""
return self._adapter_type
@adapter_type.setter
def adapter_type(self, adapter_type):
"""
Sets the adapter type for this VirtualBox VM instance.
:param adapter_type: adapter type (string)
"""
self._adapter_type = adapter_type
log.info("VirtualBox VM {name} [id={id}]: adapter type changed to {adapter_type}".format(name=self._name,
id=self._id,
adapter_type=adapter_type))
def _old_execute(self, subcommand, args, timeout=60):
"""
Executes a command with VBoxManage.
:param subcommand: vboxmanage subcommand (e.g. modifyvm, controlvm etc.)
:param args: arguments for the subcommand.
:param timeout: how long to wait for vboxmanage
:returns: result (list)
"""
command = [self._vboxmanage_path, "--nologo", subcommand]
command.extend(args)
log.debug("Execute vboxmanage command: {}".format(command))
user = self._vbox_user
try:
if not user.strip() or sys.platform.startswith("win") or sys.platform.startswith("darwin"):
result = subprocess.check_output(command, stderr=subprocess.STDOUT, timeout=timeout)
else:
sudo_command = "sudo -i -u " + user.strip() + " " + " ".join(command)
result = subprocess.check_output(sudo_command, stderr=subprocess.STDOUT, shell=True, timeout=timeout)
except subprocess.CalledProcessError as e:
if e.output:
# only the first line of the output is useful
virtualbox_error = e.output.decode("utf-8").splitlines()[0]
raise VirtualBoxError("{}".format(virtualbox_error))
else:
raise VirtualBoxError("{}".format(e))
except (OSError, subprocess.SubprocessError) as e:
raise VirtualBoxError("Could not execute VBoxManage: {}".format(e))
return result.decode("utf-8", errors="ignore").splitlines()
def _get_vm_info(self):
"""
Returns this VM info.
:returns: dict of info
"""
vm_info = {}
results = self._execute("showvminfo", [self._vmname, "--machinereadable"])
for info in results:
try:
name, value = info.split('=', 1)
except ValueError:
continue
vm_info[name.strip('"')] = value.strip('"')
return vm_info
def _get_vm_state(self):
"""
Returns this VM state (e.g. running, paused etc.)
:returns: state (string)
"""
results = self._execute("showvminfo", [self._vmname, "--machinereadable"])
for info in results:
name, value = info.split('=', 1)
if name == "VMState":
return value.strip('"')
raise VirtualBoxError("Could not get VM state for {}".format(self._vmname))
def _get_maximum_supported_adapters(self):
"""
Returns the maximum adapters supported by this VM.
:returns: maximum number of supported adapters (int)
"""
# check the maximum number of adapters supported by the VM
vm_info = self._get_vm_info()
chipset = vm_info["chipset"]
maximum_adapters = 8
if chipset == "ich9":
maximum_adapters = int(self._system_properties["Maximum ICH9 Network Adapter count"])
return maximum_adapters
def _get_pipe_name(self):
"""
Returns the pipe name to create a serial connection.
:returns: pipe path (string)
"""
p = re.compile('\s+', re.UNICODE)
pipe_name = p.sub("_", self._vmname)
if sys.platform.startswith('win'):
pipe_name = r"\\.\pipe\VBOX\{}".format(pipe_name)
else:
pipe_name = os.path.join(tempfile.gettempdir(), "pipe_{}".format(pipe_name))
return pipe_name
def _set_serial_console(self):
"""
Configures the first serial port to allow a serial console connection.
"""
# activate the first serial port
self._modify_vm("--uart1 0x3F8 4")
# set server mode with a pipe on the first serial port
pipe_name = self._get_pipe_name()
args = [self._vmname, "--uartmode1", "server", pipe_name]
self._execute("modifyvm", args)
def _modify_vm(self, params):
"""
Change setting in this VM when not running.
:param params: params to use with sub-command modifyvm
"""
args = shlex.split(params)
self._execute("modifyvm", [self._vmname] + args)
def _control_vm(self, params):
"""
Change setting in this VM when running.
:param params: params to use with sub-command controlvm
:returns: result of the command.
"""
args = shlex.split(params)
return self._execute("controlvm", [self._vmname] + args)
def _storage_attach(self, params):
"""
Change storage medium in this VM.
:param params: params to use with sub-command storageattach
"""
args = shlex.split(params)
self._execute("storageattach", [self._vmname] + args)
def _get_nic_attachements(self, maximum_adapters):
"""
Returns NIC attachements.
:param maximum_adapters: maximum number of supported adapters
:returns: list of adapters with their Attachment setting (NAT, bridged etc.)
"""
nics = []
vm_info = self._get_vm_info()
for adapter_id in range(0, maximum_adapters):
entry = "nic{}".format(adapter_id + 1)
if entry in vm_info:
value = vm_info[entry]
nics.append(value)
else:
nics.append(None)
return nics
def _set_network_options(self):
"""
Configures network options.
"""
nic_attachements = self._get_nic_attachements(self._maximum_adapters)
for adapter_id in range(0, len(self._ethernet_adapters)):
if self._ethernet_adapters[adapter_id] is None:
# force enable to avoid any discrepancy in the interface numbering inside the VM
# e.g. Ethernet2 in GNS3 becoming eth0 inside the VM when using a start index of 2.
attachement = nic_attachements[adapter_id]
if attachement:
# attachement can be none, null, nat, bridged, intnet, hostonly or generic
self._modify_vm("--nic{} {}".format(adapter_id + 1, attachement))
continue
vbox_adapter_type = "82540EM"
if self._adapter_type == "PCnet-PCI II (Am79C970A)":
vbox_adapter_type = "Am79C970A"
if self._adapter_type == "PCNet-FAST III (Am79C973)":
vbox_adapter_type = "Am79C973"
if self._adapter_type == "Intel PRO/1000 MT Desktop (82540EM)":
vbox_adapter_type = "82540EM"
if self._adapter_type == "Intel PRO/1000 T Server (82543GC)":
vbox_adapter_type = "82543GC"
if self._adapter_type == "Intel PRO/1000 MT Server (82545EM)":
vbox_adapter_type = "82545EM"
if self._adapter_type == "Paravirtualized Network (virtio-net)":
vbox_adapter_type = "virtio"
args = [self._vmname, "--nictype{}".format(adapter_id + 1), vbox_adapter_type]
self._execute("modifyvm", args)
self._modify_vm("--nictrace{} off".format(adapter_id + 1))
nio = self._ethernet_adapters[adapter_id].get_nio(0)
if nio:
log.debug("setting UDP params on adapter {}".format(adapter_id))
self._modify_vm("--nic{} generic".format(adapter_id + 1))
self._modify_vm("--nicgenericdrv{} UDPTunnel".format(adapter_id + 1))
self._modify_vm("--nicproperty{} sport={}".format(adapter_id + 1, nio.lport))
self._modify_vm("--nicproperty{} dest={}".format(adapter_id + 1, nio.rhost))
self._modify_vm("--nicproperty{} dport={}".format(adapter_id + 1, nio.rport))
self._modify_vm("--cableconnected{} on".format(adapter_id + 1))
if nio.capturing:
self._modify_vm("--nictrace{} on".format(adapter_id + 1))
self._modify_vm("--nictracefile{} {}".format(adapter_id + 1, nio.pcap_output_file))
else:
# shutting down unused adapters...
self._modify_vm("--cableconnected{} off".format(adapter_id + 1))
self._modify_vm("--nic{} null".format(adapter_id + 1))
for adapter_id in range(len(self._ethernet_adapters), self._maximum_adapters):
log.debug("disabling remaining adapter {}".format(adapter_id))
self._modify_vm("--nic{} none".format(adapter_id + 1))
def _create_linked_clone(self):
"""
Creates a new linked clone.
"""
gns3_snapshot_exists = False
vm_info = self._get_vm_info()
for entry, value in vm_info.items():
if entry.startswith("SnapshotName") and value == "GNS3 Linked Base for clones":
gns3_snapshot_exists = True
if not gns3_snapshot_exists:
result = self._execute("snapshot", [self._vmname, "take", "GNS3 Linked Base for clones"])
log.debug("GNS3 snapshot created: {}".format(result))
args = [self._vmname,
"--snapshot",
"GNS3 Linked Base for clones",
"--options",
"link",
"--name",
self._name,
"--basefolder",
self._working_dir,
"--register"]
result = self._execute("clonevm", args)
log.debug("cloned VirtualBox VM: {}".format(result))
self._vmname = self._name
self._execute("setextradata", [self._vmname, "GNS3/Clone", "yes"])
args = [self._name, "take", "reset"]
result = self._execute("snapshot", args)
log.debug("snapshot reset created: {}".format(result))
def _start_remote_console(self):
"""
Starts remote console support for this VM.
"""
# starts the Telnet to pipe thread
pipe_name = self._get_pipe_name()
if sys.platform.startswith('win'):
try:
self._serial_pipe = open(pipe_name, "a+b")
except OSError as e:
raise VirtualBoxError("Could not open the pipe {}: {}".format(pipe_name, e))
self._telnet_server_thread = TelnetServer(self._vmname, msvcrt.get_osfhandle(self._serial_pipe.fileno()), self._console_host, self._console)
self._telnet_server_thread.start()
else:
try:
self._serial_pipe = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM)
self._serial_pipe.connect(pipe_name)
except OSError as e:
raise VirtualBoxError("Could not connect to the pipe {}: {}".format(pipe_name, e))
self._telnet_server_thread = TelnetServer(self._vmname, self._serial_pipe, self._console_host, self._console)
self._telnet_server_thread.start()
def _stop_remote_console(self):
"""
Stops remote console support for this VM.
"""
if self._telnet_server_thread:
self._telnet_server_thread.stop()
self._telnet_server_thread.join(timeout=3)
if self._telnet_server_thread.isAlive():
log.warn("Serial pire thread is still alive!")
self._telnet_server_thread = None
if self._serial_pipe:
if sys.platform.startswith('win'):
win32file.CloseHandle(msvcrt.get_osfhandle(self._serial_pipe.fileno()))
else:
self._serial_pipe.close()
self._serial_pipe = None
def old_start(self):
"""
Starts this VirtualBox VM.
"""
# resume the VM if it is paused
vm_state = self._get_vm_state()
if vm_state == "paused":
self.resume()
return
# VM must be powered off and in saved state to start it
if vm_state != "poweroff" and vm_state != "saved":
raise VirtualBoxError("VirtualBox VM not powered off or saved")
self._set_network_options()
self._set_serial_console()
args = [self._vmname]
if self._headless:
args.extend(["--type", "headless"])
result = self._execute("startvm", args)
log.debug("started VirtualBox VM: {}".format(result))
# add a guest property to let the VM know about the GNS3 name
self._execute("guestproperty", ["set", self._vmname, "NameInGNS3", self._name])
# add a guest property to let the VM know about the GNS3 project directory
self._execute("guestproperty", ["set", self._vmname, "ProjectDirInGNS3", self._working_dir])
if self._enable_remote_console:
self._start_remote_console()
def old_stop(self):
"""
Stops this VirtualBox VM.
"""
self._stop_remote_console()
vm_state = self._get_vm_state()
if vm_state == "running" or vm_state == "paused" or vm_state == "stuck":
# power off the VM
result = self._control_vm("poweroff")
log.debug("VirtualBox VM has been stopped: {}".format(result))
time.sleep(0.5) # give some time for VirtualBox to unlock the VM
# deactivate the first serial port
try:
self._modify_vm("--uart1 off")
except VirtualBoxError as e:
log.warn("Could not deactivate the first serial port: {}".format(e))
for adapter_id in range(0, len(self._ethernet_adapters)):
if self._ethernet_adapters[adapter_id] is None:
continue
self._modify_vm("--nictrace{} off".format(adapter_id + 1))
self._modify_vm("--cableconnected{} off".format(adapter_id + 1))
self._modify_vm("--nic{} null".format(adapter_id + 1))
def suspend(self):
"""
Suspends this VirtualBox VM.
"""
vm_state = self._get_vm_state()
if vm_state == "running":
result = self._control_vm("pause")
log.debug("VirtualBox VM has been suspended: {}".format(result))
else:
log.info("VirtualBox VM is not running to be suspended, current state is {}".format(vm_state))
def resume(self):
"""
Resumes this VirtualBox VM.
"""
result = self._control_vm("resume")
log.debug("VirtualBox VM has been resumed: {}".format(result))
def reload(self):
"""
Reloads this VirtualBox VM.
"""
result = self._control_vm("reset")
log.debug("VirtualBox VM has been reset: {}".format(result))
def port_add_nio_binding(self, adapter_id, nio):
"""
Adds a port NIO binding.
:param adapter_id: adapter ID
:param nio: NIO instance to add to the slot/port
"""
try:
adapter = self._ethernet_adapters[adapter_id]
except IndexError:
raise VirtualBoxError("Adapter {adapter_id} doesn't exist on VirtualBox VM {name}".format(name=self._name,
adapter_id=adapter_id))
vm_state = self._get_vm_state()
if vm_state == "running":
# dynamically configure an UDP tunnel on the VirtualBox adapter
self._control_vm("nic{} generic UDPTunnel".format(adapter_id + 1))
self._control_vm("nicproperty{} sport={}".format(adapter_id + 1, nio.lport))
self._control_vm("nicproperty{} dest={}".format(adapter_id + 1, nio.rhost))
self._control_vm("nicproperty{} dport={}".format(adapter_id + 1, nio.rport))
self._control_vm("setlinkstate{} on".format(adapter_id + 1))
adapter.add_nio(0, nio)
log.info("VirtualBox VM {name} [id={id}]: {nio} added to adapter {adapter_id}".format(name=self._name,
id=self._id,
nio=nio,
adapter_id=adapter_id))
def port_remove_nio_binding(self, adapter_id):
"""
Removes a port NIO binding.
:param adapter_id: adapter ID
:returns: NIO instance
"""
try:
adapter = self._ethernet_adapters[adapter_id]
except IndexError:
raise VirtualBoxError("Adapter {adapter_id} doesn't exist on VirtualBox VM {name}".format(name=self._name,
adapter_id=adapter_id))
vm_state = self._get_vm_state()
if vm_state == "running":
# dynamically disable the VirtualBox adapter
self._control_vm("setlinkstate{} off".format(adapter_id + 1))
self._control_vm("nic{} null".format(adapter_id + 1))
nio = adapter.get_nio(0)
adapter.remove_nio(0)
log.info("VirtualBox VM {name} [id={id}]: {nio} removed from adapter {adapter_id}".format(name=self._name,
id=self._id,
nio=nio,
adapter_id=adapter_id))
return nio
def start_capture(self, adapter_id, output_file):
"""
Starts a packet capture.
:param adapter_id: adapter ID
:param output_file: PCAP destination file for the capture
"""
try:
adapter = self._ethernet_adapters[adapter_id]
except IndexError:
raise VirtualBoxError("Adapter {adapter_id} doesn't exist on VirtualBox VM {name}".format(name=self._name,
adapter_id=adapter_id))
nio = adapter.get_nio(0)
if nio.capturing:
raise VirtualBoxError("Packet capture is already activated on adapter {adapter_id}".format(adapter_id=adapter_id))
try:
os.makedirs(os.path.dirname(output_file))
except FileExistsError:
pass
except OSError as e:
raise VirtualBoxError("Could not create captures directory {}".format(e))
nio.startPacketCapture(output_file)
log.info("VirtualBox VM {name} [id={id}]: starting packet capture on adapter {adapter_id}".format(name=self._name,
id=self._id,
adapter_id=adapter_id))
def stop_capture(self, adapter_id):
"""
Stops a packet capture.
:param adapter_id: adapter ID
"""
try:
adapter = self._ethernet_adapters[adapter_id]
except IndexError:
raise VirtualBoxError("Adapter {adapter_id} doesn't exist on VirtualBox VM {name}".format(name=self._name,
adapter_id=adapter_id))
nio = adapter.get_nio(0)
nio.stopPacketCapture()
log.info("VirtualBox VM {name} [id={id}]: stopping packet capture on adapter {adapter_id}".format(name=self._name,
id=self._id,
adapter_id=adapter_id))