# -*- 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 . """ VMware VM instance. """ import sys import os import socket import subprocess import configparser import shutil import asyncio import tempfile import signal from gns3server.utils.asyncio import wait_for_process_termination from gns3server.utils.asyncio import monitor_process from gns3server.utils.telnet_server import TelnetServer from gns3server.utils.interfaces import get_windows_interfaces from collections import OrderedDict from .vmware_error import VMwareError from ..nios.nio_udp import NIOUDP from ..adapters.ethernet_adapter import EthernetAdapter from ..base_vm import BaseVM if sys.platform.startswith('win'): import msvcrt import win32file import logging log = logging.getLogger(__name__) class VMwareVM(BaseVM): """ VMware VM implementation. """ def __init__(self, name, vm_id, project, manager, vmx_path, linked_clone, console=None): super().__init__(name, vm_id, project, manager, console=console) self._linked_clone = linked_clone self._vmx_pairs = OrderedDict() self._ubridge_process = None self._ubridge_stdout_file = "" self._telnet_server_thread = None self._serial_pipe = None self._vmnets = [] self._maximum_adapters = 10 self._started = False self._closed = False # VMware VM settings self._headless = False self._vmx_path = vmx_path self._enable_remote_console = False self._acpi_shutdown = False self._adapters = 0 self._ethernet_adapters = {} self._adapter_type = "e1000" self._use_any_adapter = False if not os.path.exists(vmx_path): raise VMwareError('VMware VM "{name}" [{id}]: could not find VMX file "{vmx_path}"'.format(name=name, id=vm_id, vmx_path=vmx_path)) def __json__(self): json = {"name": self.name, "vm_id": self.id, "console": self.console, "project_id": self.project.id, "vmx_path": self.vmx_path, "headless": self.headless, "acpi_shutdown": self.acpi_shutdown, "enable_remote_console": self.enable_remote_console, "adapters": self._adapters, "adapter_type": self.adapter_type, "use_any_adapter": self.use_any_adapter} if self._linked_clone: json["vm_directory"] = self.working_dir else: json["vm_directory"] = None return json @property def vmnets(self): return self._vmnets @asyncio.coroutine def _control_vm(self, subcommand, *additional_args): args = [self._vmx_path] args.extend(additional_args) result = yield from self.manager.execute(subcommand, args) log.debug("Control VM '{}' result: {}".format(subcommand, result)) return result @asyncio.coroutine def create(self): """ Creates this VM and handle linked clones. """ if self._linked_clone and not os.path.exists(os.path.join(self.working_dir, os.path.basename(self._vmx_path))): # create the base snapshot for linked clones base_snapshot_name = "GNS3 Linked Base for clones" vmsd_path = os.path.splitext(self._vmx_path)[0] + ".vmsd" if not os.path.exists(vmsd_path): raise VMwareError("{} doesn't not exist".format(vmsd_path)) try: vmsd_pairs = self.manager.parse_vmware_file(vmsd_path) except OSError as e: raise VMwareError('Could not read VMware VMSD file "{}": {}'.format(vmsd_path, e)) gns3_snapshot_exists = False for value in vmsd_pairs.values(): if value == base_snapshot_name: gns3_snapshot_exists = True break if not gns3_snapshot_exists: log.info("Creating snapshot '{}'".format(base_snapshot_name)) yield from self._control_vm("snapshot", base_snapshot_name) # create the linked clone based on the base snapshot new_vmx_path = os.path.join(self.working_dir, self.name + ".vmx") yield from self._control_vm("clone", new_vmx_path, "linked", "-snapshot={}".format(base_snapshot_name), "-cloneName={}".format(self.name)) try: vmsd_pairs = self.manager.parse_vmware_file(vmsd_path) except OSError as e: raise VMwareError('Could not read VMware VMSD file "{}": {}'.format(vmsd_path, e)) snapshot_name = None for name, value in vmsd_pairs.items(): if value == base_snapshot_name: snapshot_name = name.split(".", 1)[0] break if snapshot_name is None: raise VMwareError("Could not find the linked base snapshot in {}".format(vmsd_path)) num_clones_entry = "{}.numClones".format(snapshot_name) if num_clones_entry in vmsd_pairs: try: nb_of_clones = int(vmsd_pairs[num_clones_entry]) except ValueError: raise VMwareError("Value of {} in {} is not a number".format(num_clones_entry, vmsd_path)) vmsd_pairs[num_clones_entry] = str(nb_of_clones - 1) for clone_nb in range(0, nb_of_clones): clone_entry = "{}.clone{}".format(snapshot_name, clone_nb) if clone_entry in vmsd_pairs: del vmsd_pairs[clone_entry] try: self.manager.write_vmware_file(vmsd_path, vmsd_pairs) except OSError as e: raise VMwareError('Could not write VMware VMSD file "{}": {}'.format(vmsd_path, e)) # update the VMX file path self._vmx_path = new_vmx_path def _get_vmx_setting(self, name, value=None): if name in self._vmx_pairs: if value is not None: if self._vmx_pairs[name] == value: return value else: return self._vmx_pairs[name] return None def _set_network_options(self): """ Set up VMware networking. """ # first do some sanity checks for adapter_number in range(0, self._adapters): connected = "ethernet{}.startConnected".format(adapter_number) if self._get_vmx_setting(connected): del self._vmx_pairs[connected] # check if any vmnet interface managed by GNS3 is being used on existing VMware adapters if self._get_vmx_setting("ethernet{}.present".format(adapter_number), "TRUE"): connection_type = "ethernet{}.connectiontype".format(adapter_number) if self._vmx_pairs[connection_type] in ("hostonly", "custom"): vnet = "ethernet{}.vnet".format(adapter_number) if vnet in self._vmx_pairs: vmnet = os.path.basename(self._vmx_pairs[vnet]) if self.manager.is_managed_vmnet(vmnet): raise VMwareError("Network adapter {} is already associated with VMnet interface {} which is managed by GNS3, please remove".format(adapter_number, vmnet)) # check for adapter type if self._adapter_type != "default": adapter_type = "ethernet{}.virtualdev".format(adapter_number) if adapter_type in self._vmx_pairs and self._vmx_pairs[adapter_type] != self._adapter_type: raise VMwareError("Network adapter {} is not of type {}, please fix or remove it".format(self._adapter_type)) # check if connected to an adapter configured for nat or bridge if self._ethernet_adapters[adapter_number].get_nio(0) and not self._use_any_adapter: if self._get_vmx_setting("ethernet{}.present".format(adapter_number), "TRUE"): # check for the connection type connection_type = "ethernet{}.connectiontype".format(adapter_number) if connection_type in self._vmx_pairs: if self._vmx_pairs[connection_type] in ("nat", "bridged", "hostonly"): raise VMwareError("Attachment ({}) already configured on network adapter {}. " "Please remove it or allow GNS3 to use any adapter.".format(self._vmx_pairs[connection_type], adapter_number)) # now configure VMware network adapters self.manager.refresh_vmnet_list() for adapter_number in range(0, self._adapters): ethernet_adapter = {"ethernet{}.present".format(adapter_number): "TRUE", "ethernet{}.addresstype".format(adapter_number): "generated", "ethernet{}.generatedaddressoffset".format(adapter_number): "0"} self._vmx_pairs.update(ethernet_adapter) if self._adapter_type != "default": self._vmx_pairs["ethernet{}.virtualdev".format(adapter_number)] = self._adapter_type connection_type = "ethernet{}.connectiontype".format(adapter_number) if not self._use_any_adapter and connection_type in self._vmx_pairs and self._vmx_pairs[connection_type] in ("nat", "bridged", "hostonly"): continue vnet = "ethernet{}.vnet".format(adapter_number) if vnet in self._vmx_pairs: vmnet = os.path.basename(self._vmx_pairs[vnet]) else: try: vmnet = self.manager.allocate_vmnet() finally: self._vmnets.clear() self._vmnets.append(vmnet) self._vmx_pairs["ethernet{}.connectiontype".format(adapter_number)] = "custom" self._vmx_pairs["ethernet{}.vnet".format(adapter_number)] = vmnet # disable remaining network adapters for adapter_number in range(self._adapters, self._maximum_adapters): if self._get_vmx_setting("ethernet{}.present".format(adapter_number), "TRUE"): log.debug("disabling remaining adapter {}".format(adapter_number)) self._vmx_pairs["ethernet{}.startconnected".format(adapter_number)] = "FALSE" self._update_ubridge_config() def _update_ubridge_config(self): """ Updates the ubrige.ini file. """ ubridge_ini = os.path.join(self.working_dir, "ubridge.ini") config = configparser.ConfigParser() for adapter_number in range(0, self._adapters): nio = self._ethernet_adapters[adapter_number].get_nio(0) if nio: bridge_name = "bridge{}".format(adapter_number) vnet = "ethernet{}.vnet".format(adapter_number) if vnet not in self._vmx_pairs: continue vmnet_interface = os.path.basename(self._vmx_pairs[vnet]) if sys.platform.startswith("linux"): config[bridge_name] = {"source_linux_raw": vmnet_interface} elif sys.platform.startswith("win"): windows_interfaces = get_windows_interfaces() npf = None for interface in windows_interfaces: if "netcard" in interface and vmnet_interface in interface["netcard"]: npf = interface["id"] elif vmnet_interface in interface["name"]: npf = interface["id"] if npf: config[bridge_name] = {"source_ethernet": npf} else: raise VMwareError("Could not find NPF id for VMnet interface {}".format(vmnet_interface)) else: config[bridge_name] = {"source_ethernet": vmnet_interface} if isinstance(nio, NIOUDP): udp_tunnel_info = {"destination_udp": "{lport}:{rhost}:{rport}".format(lport=nio.lport, rhost=nio.rhost, rport=nio.rport)} config[bridge_name].update(udp_tunnel_info) if nio.capturing: capture_info = {"pcap_file": "{pcap_file}".format(pcap_file=nio.pcap_output_file)} config[bridge_name].update(capture_info) try: with open(ubridge_ini, "w", encoding="utf-8") as config_file: config.write(config_file) log.info('VMware VM "{name}" [id={id}]: ubridge.ini updated'.format(name=self._name, id=self._id)) except OSError as e: raise VMwareError("Could not create {}: {}".format(ubridge_ini, e)) @property def ubridge_path(self): """ Returns the uBridge executable path. :returns: path to uBridge """ path = self._manager.config.get_section_config("Server").get("ubridge_path", "ubridge") if path == "ubridge": path = shutil.which("ubridge") return path @asyncio.coroutine def _start_ubridge(self): """ Starts uBridge (handles connections to and from this VMware VM). """ try: # self._update_ubridge_config() command = [self.ubridge_path] log.info("starting ubridge: {}".format(command)) self._ubridge_stdout_file = os.path.join(self.working_dir, "ubridge.log") log.info("logging to {}".format(self._ubridge_stdout_file)) with open(self._ubridge_stdout_file, "w", encoding="utf-8") as fd: self._ubridge_process = yield from asyncio.create_subprocess_exec(*command, stdout=fd, stderr=subprocess.STDOUT, cwd=self.working_dir) monitor_process(self._ubridge_process, self._termination_callback) log.info("ubridge started PID={}".format(self._ubridge_process.pid)) except (OSError, subprocess.SubprocessError) as e: ubridge_stdout = self.read_ubridge_stdout() log.error("Could not start ubridge: {}\n{}".format(e, ubridge_stdout)) raise VMwareError("Could not start ubridge: {}\n{}".format(e, ubridge_stdout)) def _termination_callback(self, returncode): """ Called when the process has stopped. :param returncode: Process returncode """ log.info("uBridge process has stopped, return code: %d", returncode) def is_ubridge_running(self): """ Checks if the ubridge process is running :returns: True or False """ if self._ubridge_process and self._ubridge_process.returncode is None: return True return False def read_ubridge_stdout(self): """ Reads the standard output of the uBridge process. Only use when the process has been stopped or has crashed. """ output = "" if self._ubridge_stdout_file: try: with open(self._ubridge_stdout_file, "rb") as file: output = file.read().decode("utf-8", errors="replace") except OSError as e: log.warn("could not read {}: {}".format(self._ubridge_stdout_file, e)) return output def _terminate_process_ubridge(self): """ Terminate the ubridge process if running. """ if self._ubridge_process: log.info('Stopping uBridge process for VMware VM "{}" PID={}'.format(self.name, self._ubridge_process.pid)) try: self._ubridge_process.terminate() # Sometime the process can already be dead when we garbage collect except ProcessLookupError: pass @asyncio.coroutine def start(self): """ Starts this VMware VM. """ if os.path.exists(self._vmx_path + ".lck"): raise VMwareError("VM locked, it is either running or being edited in VMware") ubridge_path = self.ubridge_path if not ubridge_path or not os.path.isfile(ubridge_path): raise VMwareError("ubridge is necessary to start a VMware VM") try: self._vmx_pairs = self.manager.parse_vmware_file(self._vmx_path) except OSError as e: raise VMwareError('Could not read VMware VMX file "{}": {}'.format(self._vmx_path, e)) self._set_network_options() self._set_serial_console() try: self.manager.write_vmx_file(self._vmx_path, self._vmx_pairs) except OSError as e: raise VMwareError('Could not write VMware VMX file "{}": {}'.format(self._vmx_path, e)) yield from self._start_ubridge() if self._headless: yield from self._control_vm("start", "nogui") else: yield from self._control_vm("start") if self._enable_remote_console and self._console is not None: yield from asyncio.sleep(1) # give some time to VMware to create the pipe file. self._start_remote_console() self._started = True log.info("VMware VM '{name}' [{id}] started".format(name=self.name, id=self.id)) @asyncio.coroutine def stop(self): """ Stops this VMware VM. """ self._stop_remote_console() if self.is_ubridge_running(): self._terminate_process_ubridge() try: yield from wait_for_process_termination(self._ubridge_process, timeout=3) except asyncio.TimeoutError: if self._ubridge_process.returncode is None: log.warn("uBridge process {} is still running... killing it".format(self._ubridge_process.pid)) self._ubridge_process.kill() self._ubridge_process = None try: if self.acpi_shutdown: # use ACPI to shutdown the VM yield from self._control_vm("stop", "soft") else: yield from self._control_vm("stop") finally: self._started = False self._vmnets.clear() try: self._vmx_pairs = self.manager.parse_vmware_file(self._vmx_path) except OSError as e: raise VMwareError('Could not read VMware VMX file "{}": {}'.format(self._vmx_path, e)) # remove the adapters managed by GNS3 for adapter_number in range(0, self._adapters): if self._get_vmx_setting("ethernet{}.vnet".format(adapter_number)) or \ self._get_vmx_setting("ethernet{}.connectiontype".format(adapter_number)) is None: vnet = "ethernet{}.vnet".format(adapter_number) if vnet in self._vmx_pairs: vmnet = os.path.basename(self._vmx_pairs[vnet]) if not self.manager.is_managed_vmnet(vmnet): continue log.debug("removing adapter {}".format(adapter_number)) for key in self._vmx_pairs.keys(): if key.startswith("ethernet{}.".format(adapter_number)): del self._vmx_pairs[key] # re-enable any remaining network adapters for adapter_number in range(self._adapters, self._maximum_adapters): if self._get_vmx_setting("ethernet{}.present".format(adapter_number), "TRUE"): log.debug("enabling remaining adapter {}".format(adapter_number)) self._vmx_pairs["ethernet{}.startconnected".format(adapter_number)] = "TRUE" self.manager.write_vmx_file(self._vmx_path, self._vmx_pairs) log.info("VMware VM '{name}' [{id}] stopped".format(name=self.name, id=self.id)) @asyncio.coroutine def suspend(self): """ Suspends this VMware VM. """ if self.manager.host_type != "ws": raise VMwareError("Pausing a VM is only supported by VMware Workstation") yield from self._control_vm("pause") log.info("VMware VM '{name}' [{id}] paused".format(name=self.name, id=self.id)) @asyncio.coroutine def resume(self): """ Resumes this VMware VM. """ if self.manager.host_type != "ws": raise VMwareError("Unpausing a VM is only supported by VMware Workstation") yield from self._control_vm("unpause") log.info("VMware VM '{name}' [{id}] resumed".format(name=self.name, id=self.id)) @asyncio.coroutine def reload(self): """ Reloads this VMware VM. """ yield from self._control_vm("reset") log.info("VMware VM '{name}' [{id}] reloaded".format(name=self.name, id=self.id)) @asyncio.coroutine def close(self): """ Closes this VirtualBox VM. """ if self._closed: # VM is already closed return log.debug("VMware VM '{name}' [{id}] is closing".format(name=self.name, id=self.id)) if self._console: self._manager.port_manager.release_tcp_port(self._console, self._project) self._console = None for adapter in self._ethernet_adapters.values(): if adapter is not None: for nio in adapter.ports.values(): if nio and isinstance(nio, NIOUDP): self.manager.port_manager.release_udp_port(nio.lport, self._project) try: self.acpi_shutdown = False yield from self.stop() except VMwareError: pass if self._linked_clone: # clean the VMware inventory path from this linked clone inventory_path = self.manager.get_vmware_inventory_path() inventory_pairs = {} if os.path.exists(inventory_path): try: inventory_pairs = self.manager.parse_vmware_file(inventory_path) except OSError as e: log.warning('Could not read VMware inventory file "{}": {}'.format(inventory_path, e)) return vmlist_entry = None for name, value in inventory_pairs.items(): if value == self._vmx_path: vmlist_entry = name.split(".", 1)[0] break if vmlist_entry is not None: for name in inventory_pairs.keys(): if name.startswith(vmlist_entry): del inventory_pairs[name] try: self.manager.write_vmware_file(inventory_path, inventory_pairs) except OSError as e: raise VMwareError('Could not write VMware inventory file "{}": {}'.format(inventory_path, e)) log.info("VirtualBox VM '{name}' [{id}] closed".format(name=self.name, id=self.id)) self._closed = True @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("VMware VM '{name}' [{id}] has enabled the headless mode".format(name=self.name, id=self.id)) else: log.info("VMware VM '{name}' [{id}] has disabled the headless mode".format(name=self.name, id=self.id)) self._headless = headless @property def acpi_shutdown(self): """ Returns either the VM will use ACPI shutdown :returns: boolean """ return self._acpi_shutdown @acpi_shutdown.setter def acpi_shutdown(self, acpi_shutdown): """ Sets either the VM will use ACPI shutdown :param acpi_shutdown: boolean """ if acpi_shutdown: log.info("VMware VM '{name}' [{id}] has enabled the ACPI shutdown mode".format(name=self.name, id=self.id)) else: log.info("VMware VM '{name}' [{id}] has disabled the ACPI shutdown mode".format(name=self.name, id=self.id)) self._acpi_shutdown = acpi_shutdown @property def vmx_path(self): """ Returns the path to the vmx file. :returns: VMware vmx file """ return self._vmx_path @vmx_path.setter def vmx_path(self, vmx_path): """ Sets the path to the vmx file. :param vmx_path: VMware vmx file """ log.info("VMware VM '{name}' [{id}] has set the vmx file path to '{vmx}'".format(name=self.name, id=self.id, vmx=vmx_path)) self._vmx_path = vmx_path @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("VMware VM '{name}' [{id}] has enabled the console".format(name=self.name, id=self.id)) if self._started: self._start_remote_console() else: log.info("VMware VM '{name}' [{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 adapters(self): """ Returns the number of adapters configured for this VMware VM. :returns: number of adapters """ return self._adapters @adapters.setter def adapters(self, adapters): """ Sets the number of Ethernet adapters for this VMware VM instance. :param adapters: number of adapters """ # VMware VMs are limit to 10 adapters if adapters > 10: raise VMwareError("Number of adapters above the maximum supported of 10") self._ethernet_adapters.clear() for adapter_number in range(0, adapters): self._ethernet_adapters[adapter_number] = EthernetAdapter() self._adapters = len(self._ethernet_adapters) log.info("VMware VM '{name}' [{id}] has changed the number of Ethernet adapters to {adapters}".format(name=self.name, id=self.id, adapters=adapters)) @property def adapter_type(self): """ Returns the adapter type for this VMware 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 VMware VM instance. :param adapter_type: adapter type (string) """ self._adapter_type = adapter_type log.info("VMware VM '{name}' [{id}]: adapter type changed to {adapter_type}".format(name=self.name, id=self.id, adapter_type=adapter_type)) @property def use_any_adapter(self): """ Returns either GNS3 can use any VMware adapter on this instance. :returns: boolean """ return self._use_any_adapter @use_any_adapter.setter def use_any_adapter(self, use_any_adapter): """ Allows GNS3 to use any VMware adapter on this instance. :param use_any_adapter: boolean """ if use_any_adapter: log.info("VMware VM '{name}' [{id}] is allowed to use any adapter".format(name=self.name, id=self.id)) else: log.info("VMware VM '{name}' [{id}] is not allowed to use any adapter".format(name=self.name, id=self.id)) self._use_any_adapter = use_any_adapter def _reload_ubridge(self): """ Reloads ubridge. """ if self.is_ubridge_running(): self._update_ubridge_config() if not sys.platform.startswith("win"): os.kill(self._ubridge_process.pid, signal.SIGHUP) else: # Windows doesn't support SIGHUP... self._terminate_process_ubridge() self._start_ubridge() def adapter_add_nio_binding(self, adapter_number, nio): """ Adds an adapter NIO binding. :param adapter_number: adapter number :param nio: NIO instance to add to the slot/port """ try: adapter = self._ethernet_adapters[adapter_number] except IndexError: raise VMwareError("Adapter {adapter_number} doesn't exist on VMware VM '{name}'".format(name=self.name, adapter_number=adapter_number)) adapter.add_nio(0, nio) log.info("VMware VM '{name}' [{id}]: {nio} added to adapter {adapter_number}".format(name=self.name, id=self.id, nio=nio, adapter_number=adapter_number)) self._reload_ubridge() def adapter_remove_nio_binding(self, adapter_number): """ Removes an adapter NIO binding. :param adapter_number: adapter number :returns: NIO instance """ try: adapter = self._ethernet_adapters[adapter_number] except IndexError: raise VMwareError("Adapter {adapter_number} doesn't exist on VMware VM '{name}'".format(name=self.name, adapter_number=adapter_number)) nio = adapter.get_nio(0) if isinstance(nio, NIOUDP): self.manager.port_manager.release_udp_port(nio.lport, self._project) adapter.remove_nio(0) log.info("VMware VM '{name}' [{id}]: {nio} removed from adapter {adapter_number}".format(name=self.name, id=self.id, nio=nio, adapter_number=adapter_number)) self._reload_ubridge() return nio def _get_pipe_name(self): """ Returns the pipe name to create a serial connection. :returns: pipe path (string) """ if sys.platform.startswith("win"): pipe_name = r"\\.\pipe\gns3_vmware\{}".format(self.id) else: pipe_name = os.path.join(tempfile.gettempdir(), "gns3_vmware", "{}".format(self.id)) try: os.makedirs(os.path.dirname(pipe_name), exist_ok=True) except OSError as e: raise VMwareError("Could not create the VMware pipe directory: {}".format(e)) return pipe_name def _set_serial_console(self): """ Configures the first serial port to allow a serial console connection. """ pipe_name = self._get_pipe_name() serial_port = {"serial0.present": "TRUE", "serial0.filetype": "pipe", "serial0.filename": pipe_name, "serial0.pipe.endpoint": "server"} self._vmx_pairs.update(serial_port) 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 VMwareError("Could not open the pipe {}: {}".format(pipe_name, e)) try: self._telnet_server_thread = TelnetServer(self.name, msvcrt.get_osfhandle(self._serial_pipe.fileno()), self._manager.port_manager.console_host, self._console) except OSError as e: raise VMwareError("Unable to create Telnet server: {}".format(e)) 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 VMwareError("Could not connect to the pipe {}: {}".format(pipe_name, e)) try: self._telnet_server_thread = TelnetServer(self.name, self._serial_pipe, self._manager.port_manager.console_host, self._console) except OSError as e: raise VMwareError("Unable to create Telnet server: {}".format(e)) self._telnet_server_thread.start() def _stop_remote_console(self): """ Stops remote console support for this VM. """ if self._telnet_server_thread: if self._telnet_server_thread.is_alive(): self._telnet_server_thread.stop() self._telnet_server_thread.join(timeout=3) if self._telnet_server_thread.is_alive(): log.warn("Serial pipe 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