# -*- 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 . """ VirtualBox VM instance. """ import sys import shlex import re import os import subprocess import tempfile import shutil import json import socket import time from .virtualbox_error import VirtualBoxError from .adapters.ethernet_adapter import EthernetAdapter from ..attic import find_unused_port from .telnet_server import TelnetServer if sys.platform.startswith('win'): import msvcrt import win32file import logging log = logging.getLogger(__name__) class VirtualBoxVM(object): """ VirtualBox VM implementation. :param vboxmanage_path: path to the VBoxManage tool :param name: name of this VirtualBox VM :param vmname: name of this VirtualBox VM in VirtualBox itself :param linked_clone: flag if a linked clone must be created :param working_dir: path to a working directory :param vbox_id: VirtalBox VM instance ID :param console: TCP console port :param console_host: IP address to bind for console connections :param console_start_port_range: TCP console port range start :param console_end_port_range: TCP console port range end """ _instances = [] _allocated_console_ports = [] def __init__(self, vboxmanage_path, name, vmname, linked_clone, working_dir, vbox_id=None, console=None, console_host="0.0.0.0", console_start_port_range=4512, console_end_port_range=5000): if not vbox_id: self._id = 0 for identifier in range(1, 1024): if identifier not in self._instances: self._id = identifier self._instances.append(self._id) break if self._id == 0: raise VirtualBoxError("Maximum number of VirtualBox VM instances reached") else: if vbox_id in self._instances: raise VirtualBoxError("VirtualBox identifier {} is already used by another VirtualBox VM instance".format(vbox_id)) self._id = vbox_id self._instances.append(self._id) self._name = name self._linked_clone = linked_clone self._working_dir = None self._command = [] self._vboxmanage_path = vboxmanage_path 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)) 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 id(self): """ Returns the unique ID for this VirtualBox VM. :returns: id (integer) """ return self._id @classmethod def reset(cls): """ Resets allocated instance list. """ cls._instances.clear() cls._allocated_console_ports.clear() @property def name(self): """ Returns the name of this VirtualBox VM. :returns: name """ return self._name @name.setter def name(self, new_name): """ Sets the name of this VirtualBox VM. :param new_name: name """ log.info("VirtualBox VM {name} [id={id}]: renamed to {new_name}".format(name=self._name, id=self._id, new_name=new_name)) self._name = new_name @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): print("Reattaching: {}".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 = [] hdd_files = self._get_all_hdd_files() vm_info = self._get_vm_info() for entry, value in vm_info.items(): match = re.search("^(\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]) print(self._working_dir) 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)) else: log.info("VirtualBox VM {name} [id={id}] has disabled the console".format(name=self._name, id=self._id)) 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)) 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 _execute(self, subcommand, args, timeout=30): """ 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)) try: result = subprocess.check_output(command, stderr=subprocess.STDOUT, universal_newlines=True, timeout=timeout) except subprocess.CalledProcessError as e: if e.output: # only the first line of the output is useful virtualbox_error = e.output.splitlines()[0] raise VirtualBoxError("{}".format(virtualbox_error)) else: raise VirtualBoxError("{}".format(e)) except subprocess.TimeoutExpired: raise VirtualBoxError("VBoxManage has timed out") return result.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): 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"]) print(result) #log.debug("cloned VirtualBox VM: {}".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) self._vmname = self._name self._execute("setextradata", [self._vmname, "GNS3/Clone", "yes"]) log.debug("cloned VirtualBox VM: {}".format(result)) def 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: # 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(self): """ Stops this VirtualBox 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 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))