# -*- 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 . """ QEMU VM management (creates command line, processes, files etc.) in order to run a QEMU VM. """ import sys import os import shutil import subprocess import shlex import asyncio import socket from .qemu_error import QemuError from ..adapters.ethernet_adapter import EthernetAdapter from ..nios.nio_udp import NIOUDP from ..nios.nio_tap import NIOTAP from ..nios.nio_nat import NIONAT from ..base_vm import BaseVM from ...schemas.qemu import QEMU_OBJECT_SCHEMA import logging log = logging.getLogger(__name__) class QemuVM(BaseVM): module_name = 'qemu' """ QEMU VM implementation. :param name: Qemu VM name :param vm_id: Qemu VM identifier :param project: Project instance :param manager: Manager instance :param console: TCP console port :param qemu_path: path to the QEMU binary :param console: TCP console port """ def __init__(self, name, vm_id, project, manager, qemu_path=None, console=None): super().__init__(name, vm_id, project, manager, console=console) server_config = manager.config.get_section_config("Server") self._host = server_config.get("host", "127.0.0.1") self._monitor_host = server_config.get("monitor_host", "127.0.0.1") self._command = [] self._started = False self._process = None self._cpulimit_process = None self._monitor = None self._stdout_file = "" # QEMU VM settings self.qemu_path = qemu_path self._hda_disk_image = "" self._hdb_disk_image = "" self._hdc_disk_image = "" self._hdd_disk_image = "" self._options = "" self._ram = 256 self._ethernet_adapters = [] self._adapter_type = "e1000" self._initrd = "" self._kernel_image = "" self._kernel_command_line = "" self._legacy_networking = False self._cpu_throttling = 0 # means no CPU throttling self._process_priority = "low" self.adapters = 1 # creates 1 adapter by default log.info('QEMU VM "{name}" [{id}] has been created'.format(name=self._name, id=self._id)) @property def monitor(self): """ Returns the TCP monitor port. :returns: monitor port (integer) """ return self._monitor @property def qemu_path(self): """ Returns the QEMU binary path for this QEMU VM. :returns: QEMU path """ return self._qemu_path @qemu_path.setter def qemu_path(self, qemu_path): """ Sets the QEMU binary path this QEMU VM. :param qemu_path: QEMU path """ if qemu_path and os.pathsep not in qemu_path: qemu_path = shutil.which(qemu_path) if qemu_path is None: raise QemuError("QEMU binary path is not set or not found in the path") if not os.path.exists(qemu_path): raise QemuError("QEMU binary '{}' is not accessible".format(qemu_path)) if not os.access(qemu_path, os.X_OK): raise QemuError("QEMU binary '{}' is not executable".format(qemu_path)) self._qemu_path = qemu_path log.info('QEMU VM "{name}" [{id}] has set the QEMU path to {qemu_path}'.format(name=self._name, id=self._id, qemu_path=qemu_path)) @property def hda_disk_image(self): """ Returns the hda disk image path for this QEMU VM. :returns: QEMU hda disk image path """ return self._hda_disk_image @hda_disk_image.setter def hda_disk_image(self, hda_disk_image): """ Sets the hda disk image for this QEMU VM. :param hda_disk_image: QEMU hda disk image path """ self._hda_disk_image = self.manager.get_abs_image_path(hda_disk_image) log.info('QEMU VM "{name}" [{id}] has set the QEMU hda disk image path to {disk_image}'.format(name=self._name, id=self._id, disk_image=self._hda_disk_image)) @property def hdb_disk_image(self): """ Returns the hdb disk image path for this QEMU VM. :returns: QEMU hdb disk image path """ return self._hdb_disk_image @hdb_disk_image.setter def hdb_disk_image(self, hdb_disk_image): """ Sets the hdb disk image for this QEMU VM. :param hdb_disk_image: QEMU hdb disk image path """ self._hdb_disk_image = self.manager.get_abs_image_path(hdb_disk_image) log.info('QEMU VM "{name}" [{id}] has set the QEMU hdb disk image path to {disk_image}'.format(name=self._name, id=self._id, disk_image=self._hdb_disk_image)) @property def hdc_disk_image(self): """ Returns the hdc disk image path for this QEMU VM. :returns: QEMU hdc disk image path """ return self._hdc_disk_image @hdc_disk_image.setter def hdc_disk_image(self, hdc_disk_image): """ Sets the hdc disk image for this QEMU VM. :param hdc_disk_image: QEMU hdc disk image path """ self._hdc_disk_image = self.manager.get_abs_image_path(hdc_disk_image) log.info('QEMU VM "{name}" [{id}] has set the QEMU hdc disk image path to {disk_image}'.format(name=self._name, id=self._id, disk_image=self._hdc_disk_image)) @property def hdd_disk_image(self): """ Returns the hdd disk image path for this QEMU VM. :returns: QEMU hdd disk image path """ return self._hdd_disk_image @hdd_disk_image.setter def hdd_disk_image(self, hdd_disk_image): """ Sets the hdd disk image for this QEMU VM. :param hdd_disk_image: QEMU hdd disk image path """ self._hdd_disk_image = hdd_disk_image self._hdd_disk_image = self.manager.get_abs_image_path(hdd_disk_image) log.info('QEMU VM "{name}" [{id}] has set the QEMU hdd disk image path to {disk_image}'.format(name=self._name, id=self._id, disk_image=self._hdd_disk_image)) @property def adapters(self): """ Returns the number of Ethernet adapters for this QEMU VM. :returns: number of adapters """ return len(self._ethernet_adapters) @adapters.setter def adapters(self, adapters): """ Sets the number of Ethernet adapters for this QEMU VM. :param adapters: number of adapters """ self._ethernet_adapters.clear() for adapter_number in range(0, adapters): self._ethernet_adapters.append(EthernetAdapter()) log.info('QEMU VM "{name}" [{id}]: number of Ethernet adapters changed to {adapters}'.format(name=self._name, id=self._id, adapters=adapters)) @property def adapter_type(self): """ Returns the adapter type for this QEMU VM. :returns: adapter type (string) """ return self._adapter_type @adapter_type.setter def adapter_type(self, adapter_type): """ Sets the adapter type for this QEMU VM. :param adapter_type: adapter type (string) """ self._adapter_type = adapter_type log.info('QEMU VM "{name}" [{id}]: adapter type changed to {adapter_type}'.format(name=self._name, id=self._id, adapter_type=adapter_type)) @property def legacy_networking(self): """ Returns either QEMU legacy networking commands are used. :returns: boolean """ return self._legacy_networking @legacy_networking.setter def legacy_networking(self, legacy_networking): """ Sets either QEMU legacy networking commands are used. :param legacy_networking: boolean """ if legacy_networking: log.info('QEMU VM "{name}" [{id}] has enabled legacy networking'.format(name=self._name, id=self._id)) else: log.info('QEMU VM "{name}" [{id}] has disabled legacy networking'.format(name=self._name, id=self._id)) self._legacy_networking = legacy_networking @property def cpu_throttling(self): """ Returns the percentage of CPU allowed. :returns: integer """ return self._cpu_throttling @cpu_throttling.setter def cpu_throttling(self, cpu_throttling): """ Sets the percentage of CPU allowed. :param cpu_throttling: integer """ log.info('QEMU VM "{name}" [{id}] has set the percentage of CPU allowed to {cpu}'.format(name=self._name, id=self._id, cpu=cpu_throttling)) self._cpu_throttling = cpu_throttling self._stop_cpulimit() if cpu_throttling: self._set_cpu_throttling() @property def process_priority(self): """ Returns the process priority. :returns: string """ return self._process_priority @process_priority.setter def process_priority(self, process_priority): """ Sets the process priority. :param process_priority: string """ log.info('QEMU VM "{name}" [{id}] has set the process priority to {priority}'.format(name=self._name, id=self._id, priority=process_priority)) self._process_priority = process_priority @property def ram(self): """ Returns the RAM amount for this QEMU VM. :returns: RAM amount in MB """ return self._ram @ram.setter def ram(self, ram): """ Sets the amount of RAM for this QEMU VM. :param ram: RAM amount in MB """ log.info('QEMU VM "{name}" [{id}] has set the RAM to {ram}'.format(name=self._name, id=self._id, ram=ram)) self._ram = ram @property def options(self): """ Returns the options for this QEMU VM. :returns: QEMU options """ return self._options @options.setter def options(self, options): """ Sets the options for this QEMU VM. :param options: QEMU options """ log.info('QEMU VM "{name}" [{id}] has set the QEMU options to {options}'.format(name=self._name, id=self._id, options=options)) self._options = options @property def initrd(self): """ Returns the initrd path for this QEMU VM. :returns: QEMU initrd path """ return self._initrd @initrd.setter def initrd(self, initrd): """ Sets the initrd path for this QEMU VM. :param initrd: QEMU initrd path """ if not os.path.isabs(initrd): server_config = self.manager.config.get_section_config("Server") initrd = os.path.join(os.path.expanduser(server_config.get("images_path", "~/GNS3/images")), "QEMU", initrd) log.info('QEMU VM "{name}" [{id}] has set the QEMU initrd path to {initrd}'.format(name=self._name, id=self._id, initrd=initrd)) self._initrd = initrd @property def kernel_image(self): """ Returns the kernel image path for this QEMU VM. :returns: QEMU kernel image path """ return self._kernel_image @kernel_image.setter def kernel_image(self, kernel_image): """ Sets the kernel image path for this QEMU VM. :param kernel_image: QEMU kernel image path """ if not os.path.isabs(kernel_image): server_config = self.manager.config.get_section_config("Server") kernel_image = os.path.join(os.path.expanduser(server_config.get("images_path", "~/GNS3/images")), "QEMU", kernel_image) log.info('QEMU VM "{name}" [{id}] has set the QEMU kernel image path to {kernel_image}'.format(name=self._name, id=self._id, kernel_image=kernel_image)) self._kernel_image = kernel_image @property def kernel_command_line(self): """ Returns the kernel command line for this QEMU VM. :returns: QEMU kernel command line """ return self._kernel_command_line @kernel_command_line.setter def kernel_command_line(self, kernel_command_line): """ Sets the kernel command line for this QEMU VM. :param kernel_command_line: QEMU kernel command line """ log.info('QEMU VM "{name}" [{id}] has set the QEMU kernel command line to {kernel_command_line}'.format(name=self._name, id=self._id, kernel_command_line=kernel_command_line)) self._kernel_command_line = kernel_command_line @asyncio.coroutine def _set_process_priority(self): """ Changes the process priority """ if sys.platform.startswith("win"): try: import win32api import win32con import win32process except ImportError: log.error("pywin32 must be installed to change the priority class for QEMU VM {}".format(self._name)) else: log.info("setting QEMU VM {} priority class to BELOW_NORMAL".format(self._name)) handle = win32api.OpenProcess(win32con.PROCESS_ALL_ACCESS, 0, self._process.pid) if self._process_priority == "realtime": priority = win32process.REALTIME_PRIORITY_CLASS elif self._process_priority == "very high": priority = win32process.HIGH_PRIORITY_CLASS elif self._process_priority == "high": priority = win32process.ABOVE_NORMAL_PRIORITY_CLASS elif self._process_priority == "low": priority = win32process.BELOW_NORMAL_PRIORITY_CLASS elif self._process_priority == "very low": priority = win32process.IDLE_PRIORITY_CLASS else: priority = win32process.NORMAL_PRIORITY_CLASS win32process.SetPriorityClass(handle, priority) else: if self._process_priority == "realtime": priority = -20 elif self._process_priority == "very high": priority = -15 elif self._process_priority == "high": priority = -5 elif self._process_priority == "low": priority = 5 elif self._process_priority == "very low": priority = 19 else: priority = 0 try: process = yield from asyncio.create_subprocess_exec('renice', '-n', str(priority), '-p', str(self._process.pid)) yield from process.wait() except (OSError, subprocess.SubprocessError) as e: log.error('Could not change process priority for QEMU VM "{}": {}'.format(self._name, e)) def _stop_cpulimit(self): """ Stops the cpulimit process. """ if self._cpulimit_process and self._cpulimit_process.returncode is None: self._cpulimit_process.kill() try: self._process.wait(3) except subprocess.TimeoutExpired: log.error("Could not kill cpulimit process {}".format(self._cpulimit_process.pid)) def _set_cpu_throttling(self): """ Limits the CPU usage for current QEMU process. """ if not self.is_running(): return try: if sys.platform.startswith("win") and hasattr(sys, "frozen"): cpulimit_exec = os.path.join(os.path.dirname(os.path.abspath(sys.executable)), "cpulimit", "cpulimit.exe") else: cpulimit_exec = "cpulimit" subprocess.Popen([cpulimit_exec, "--lazy", "--pid={}".format(self._process.pid), "--limit={}".format(self._cpu_throttling)], cwd=self.working_dir) log.info("CPU throttled to {}%".format(self._cpu_throttling)) except FileNotFoundError: raise QemuError("cpulimit could not be found, please install it or deactivate CPU throttling") except (OSError, subprocess.SubprocessError) as e: raise QemuError("Could not throttle CPU: {}".format(e)) @asyncio.coroutine def start(self): """ Starts this QEMU VM. """ if self.is_running(): # resume the VM if it is paused yield from self.resume() return else: if self._manager.config.get_section_config("Qemu").getboolean("monitor", True): try: # let the OS find an unused port for the Qemu monitor with socket.socket(socket.AF_INET, socket.SOCK_STREAM) as sock: sock.bind((self._monitor_host, 0)) self._monitor = sock.getsockname()[1] except OSError as e: raise QemuError("Could not find free port for the Qemu monitor: {}".format(e)) self._command = yield from self._build_command() try: log.info("Starting QEMU: {}".format(self._command)) self._stdout_file = os.path.join(self.working_dir, "qemu.log") log.info("logging to {}".format(self._stdout_file)) with open(self._stdout_file, "w", encoding="utf-8") as fd: self._process = yield from asyncio.create_subprocess_exec(*self._command, stdout=fd, stderr=subprocess.STDOUT, cwd=self.working_dir) log.info('QEMU VM "{}" started PID={}'.format(self._name, self._process.pid)) self._started = True except (OSError, subprocess.SubprocessError) as e: stdout = self.read_stdout() log.error("Could not start QEMU {}: {}\n{}".format(self.qemu_path, e, stdout)) raise QemuError("Could not start QEMU {}: {}\n{}".format(self.qemu_path, e, stdout)) self._set_process_priority() if self._cpu_throttling: self._set_cpu_throttling() @asyncio.coroutine def stop(self): """ Stops this QEMU VM. """ # stop the QEMU process if self.is_running(): log.info('Stopping QEMU VM "{}" PID={}'.format(self._name, self._process.pid)) try: self._process.terminate() self._process.wait() except subprocess.TimeoutExpired: self._process.kill() if self._process.returncode is None: log.warn('QEMU VM "{}" PID={} is still running'.format(self._name, self._process.pid)) self._process = None self._started = False self._stop_cpulimit() @asyncio.coroutine def _control_vm(self, command, expected=None): """ Executes a command with QEMU monitor when this VM is running. :param command: QEMU monitor command (e.g. info status, stop etc.) :param expected: An array of expected strings :returns: result of the command (matched object or None) """ result = None if self.is_running() and self._monitor: log.debug("Execute QEMU monitor command: {}".format(command)) try: log.info("Connecting to Qemu monitor on {}:{}".format(self._monitor_host, self._monitor)) reader, writer = yield from asyncio.open_connection(self._monitor_host, self._monitor) except OSError as e: log.warn("Could not connect to QEMU monitor: {}".format(e)) return result try: writer.write(command.encode('ascii') + b"\n") except OSError as e: log.warn("Could not write to QEMU monitor: {}".format(e)) writer.close() return result if expected: try: while result is None: line = yield from reader.readline() if not line: break for expect in expected: if expect in line: result = line.decode("utf-8").strip() break except EOFError as e: log.warn("Could not read from QEMU monitor: {}".format(e)) writer.close() return result @asyncio.coroutine def close(self): """ Closes this QEMU VM. """ log.debug('QEMU VM "{name}" [{id}] is closing'.format(name=self._name, id=self._id)) yield from self.stop() if self._console: self._manager.port_manager.release_tcp_port(self._console, self._project) self._console = None @asyncio.coroutine def _get_vm_status(self): """ Returns this VM suspend status. Status are extracted from: https://github.com/qemu/qemu/blob/master/qapi-schema.json#L152 :returns: status (string) """ result = yield from self._control_vm("info status", [ b"debug", b"inmigrate", b"internal-error", b"io-error", b"paused", b"postmigrate", b"prelaunch", b"finish-migrate", b"restore-vm", b"running", b"save-vm", b"shutdown", b"suspended", b"watchdog", b"guest-panicked" ]) if result is None: return result return result.rsplit(' ', 1)[1] @asyncio.coroutine def suspend(self): """ Suspends this QEMU VM. """ if self.is_running(): vm_status = yield from self._get_vm_status() if vm_status is None: raise QemuError("Suspending a QEMU VM is not supported") elif vm_status == "running": yield from self._control_vm("stop") log.debug("QEMU VM has been suspended") else: log.info("QEMU VM is not running to be suspended, current status is {}".format(vm_status)) @asyncio.coroutine def reload(self): """ Reloads this QEMU VM. """ yield from self._control_vm("system_reset") log.debug("QEMU VM has been reset") @asyncio.coroutine def resume(self): """ Resumes this QEMU VM. """ vm_status = yield from self._get_vm_status() if vm_status is None: raise QemuError("Resuming a QEMU VM is not supported") elif vm_status == "paused": yield from self._control_vm("cont") log.debug("QEMU VM has been resumed") else: log.info("QEMU VM is not paused to be resumed, current status is {}".format(vm_status)) @asyncio.coroutine def adapter_add_nio_binding(self, adapter_number, nio): """ Adds a port NIO binding. :param adapter_number: adapter number :param nio: NIO instance to add to the adapter """ try: adapter = self._ethernet_adapters[adapter_number] except IndexError: raise QemuError('Adapter {adapter_number} does not exist on QEMU VM "{name}"'.format(name=self._name, adapter_number=adapter_number)) if self.is_running(): raise QemuError("Sorry, adding a link to a started Qemu VM is not supported.") # FIXME: does the code below work? very undocumented feature... # dynamically configure an UDP tunnel on the QEMU VM adapter if nio and isinstance(nio, NIOUDP): if self._legacy_networking: yield from self._control_vm("host_net_remove {} gns3-{}".format(adapter_number, adapter_number)) yield from self._control_vm("host_net_add udp vlan={},name=gns3-{},sport={},dport={},daddr={}".format(adapter_number, adapter_number, nio.lport, nio.rport, nio.rhost)) else: # Apparently there is a bug in Qemu... # netdev_add [user|tap|socket|hubport|netmap],id=str[,prop=value][,...] -- add host network device # netdev_del id -- remove host network device yield from self._control_vm("netdev_del gns3-{}".format(adapter_number)) yield from self._control_vm("netdev_add socket,id=gns3-{},udp={}:{},localaddr={}:{}".format(adapter_number, nio.rhost, nio.rport, self._host, nio.lport)) adapter.add_nio(0, nio) log.info('QEMU VM "{name}" [{id}]: {nio} added to adapter {adapter_number}'.format(name=self._name, id=self._id, nio=nio, adapter_number=adapter_number)) @asyncio.coroutine def adapter_remove_nio_binding(self, adapter_number): """ Removes a port NIO binding. :param adapter_number: adapter number :returns: NIO instance """ try: adapter = self._ethernet_adapters[adapter_number] except IndexError: raise QemuError('Adapter {adapter_number} does not exist on QEMU VM "{name}"'.format(name=self._name, adapter_number=adapter_number)) if self.is_running(): # FIXME: does the code below work? very undocumented feature... # dynamically disable the QEMU VM adapter yield from self._control_vm("host_net_remove {} gns3-{}".format(adapter_number, adapter_number)) yield from self._control_vm("host_net_add user vlan={},name=gns3-{}".format(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('QEMU VM "{name}" [{id}]: {nio} removed from adapter {adapter_number}'.format(name=self._name, id=self._id, nio=nio, adapter_number=adapter_number)) return nio @property def started(self): """ Returns either this QEMU VM has been started or not. :returns: boolean """ return self._started def read_stdout(self): """ Reads the standard output of the QEMU process. Only use when the process has been stopped or has crashed. """ output = "" if self._stdout_file: try: with open(self._stdout_file, "rb") as file: output = file.read().decode("utf-8", errors="replace") except OSError as e: log.warn("Could not read {}: {}".format(self._stdout_file, e)) return output def is_running(self): """ Checks if the QEMU process is running :returns: True or False """ if self._process: if self._process.returncode is None: return True else: self._process = None return False def command(self): """ Returns the QEMU command line. :returns: QEMU command line (string) """ return " ".join(self._build_command()) def _serial_options(self): if self._console: return ["-serial", "telnet:{}:{},server,nowait".format(self._manager.port_manager.console_host, self._console)] else: return [] def _monitor_options(self): if self._monitor: return ["-monitor", "tcp:{}:{},server,nowait".format(self._monitor_host, self._monitor)] else: return [] @asyncio.coroutine def _disk_options(self): options = [] qemu_img_path = "" qemu_path_dir = os.path.dirname(self.qemu_path) try: for f in os.listdir(qemu_path_dir): if f.startswith("qemu-img"): qemu_img_path = os.path.join(qemu_path_dir, f) except OSError as e: raise QemuError("Error while looking for qemu-img in {}: {}".format(qemu_path_dir, e)) if not qemu_img_path: raise QemuError("Could not find qemu-img in {}".format(qemu_path_dir)) try: if self._hda_disk_image: if not os.path.isfile(self._hda_disk_image) or not os.path.exists(self._hda_disk_image): if os.path.islink(self._hda_disk_image): raise QemuError("hda disk image '{}' linked to '{}' is not accessible".format(self._hda_disk_image, os.path.realpath(self._hda_disk_image))) else: raise QemuError("hda disk image '{}' is not accessible".format(self._hda_disk_image)) hda_disk = os.path.join(self.working_dir, "hda_disk.qcow2") if not os.path.exists(hda_disk): process = yield from asyncio.create_subprocess_exec(qemu_img_path, "create", "-o", "backing_file={}".format(self._hda_disk_image), "-f", "qcow2", hda_disk) retcode = yield from process.wait() log.info("{} returned with {}".format(qemu_img_path, retcode)) else: # create a "FLASH" with 256MB if no disk image has been specified hda_disk = os.path.join(self.working_dir, "flash.qcow2") if not os.path.exists(hda_disk): process = yield from asyncio.create_subprocess_exec(qemu_img_path, "create", "-f", "qcow2", hda_disk, "256M") retcode = yield from process.wait() log.info("{} returned with {}".format(qemu_img_path, retcode)) except (OSError, subprocess.SubprocessError) as e: raise QemuError("Could not create hda disk image {}".format(e)) options.extend(["-hda", hda_disk]) if self._hdb_disk_image: if not os.path.isfile(self._hdb_disk_image) or not os.path.exists(self._hdb_disk_image): if os.path.islink(self._hdb_disk_image): raise QemuError("hdb disk image '{}' linked to '{}' is not accessible".format(self._hdb_disk_image, os.path.realpath(self._hdb_disk_image))) else: raise QemuError("hdb disk image '{}' is not accessible".format(self._hdb_disk_image)) hdb_disk = os.path.join(self.working_dir, "hdb_disk.qcow2") if not os.path.exists(hdb_disk): try: process = yield from asyncio.create_subprocess_exec(qemu_img_path, "create", "-o", "backing_file={}".format(self._hdb_disk_image), "-f", "qcow2", hdb_disk) retcode = yield from process.wait() log.info("{} returned with {}".format(qemu_img_path, retcode)) except (OSError, subprocess.SubprocessError) as e: raise QemuError("Could not create hdb disk image {}".format(e)) options.extend(["-hdb", hdb_disk]) if self._hdc_disk_image: if not os.path.isfile(self._hdc_disk_image) or not os.path.exists(self._hdc_disk_image): if os.path.islink(self._hdc_disk_image): raise QemuError("hdc disk image '{}' linked to '{}' is not accessible".format(self._hdc_disk_image, os.path.realpath(self._hdc_disk_image))) else: raise QemuError("hdc disk image '{}' is not accessible".format(self._hdc_disk_image)) hdc_disk = os.path.join(self.working_dir, "hdc_disk.qcow2") if not os.path.exists(hdc_disk): try: process = yield from asyncio.create_subprocess_exec(qemu_img_path, "create", "-o", "backing_file={}".format(self._hdc_disk_image), "-f", "qcow2", hdc_disk) retcode = yield from process.wait() log.info("{} returned with {}".format(qemu_img_path, retcode)) except (OSError, subprocess.SubprocessError) as e: raise QemuError("Could not create hdc disk image {}".format(e)) options.extend(["-hdc", hdc_disk]) if self._hdd_disk_image: if not os.path.isfile(self._hdd_disk_image) or not os.path.exists(self._hdd_disk_image): if os.path.islink(self._hdd_disk_image): raise QemuError("hdd disk image '{}' linked to '{}' is not accessible".format(self._hdd_disk_image, os.path.realpath(self._hdd_disk_image))) else: raise QemuError("hdd disk image '{}' is not accessible".format(self._hdd_disk_image)) hdd_disk = os.path.join(self.working_dir, "hdd_disk.qcow2") if not os.path.exists(hdd_disk): try: process = yield from asyncio.create_subprocess_exec(qemu_img_path, "create", "-o", "backing_file={}".format(self._hdd_disk_image), "-f", "qcow2", hdd_disk) retcode = yield from process.wait() log.info("{} returned with {}".format(qemu_img_path, retcode)) except (OSError, subprocess.SubprocessError) as e: raise QemuError("Could not create hdd disk image {}".format(e)) options.extend(["-hdd", hdd_disk]) return options def _linux_boot_options(self): options = [] if self._initrd: if not os.path.isfile(self._initrd) or not os.path.exists(self._initrd): if os.path.islink(self._initrd): raise QemuError("initrd file '{}' linked to '{}' is not accessible".format(self._initrd, os.path.realpath(self._initrd))) else: raise QemuError("initrd file '{}' is not accessible".format(self._initrd)) options.extend(["-initrd", self._initrd]) if self._kernel_image: if not os.path.isfile(self._kernel_image) or not os.path.exists(self._kernel_image): if os.path.islink(self._kernel_image): raise QemuError("kernel image '{}' linked to '{}' is not accessible".format(self._kernel_image, os.path.realpath(self._kernel_image))) else: raise QemuError("kernel image '{}' is not accessible".format(self._kernel_image)) options.extend(["-kernel", self._kernel_image]) if self._kernel_command_line: options.extend(["-append", self._kernel_command_line]) return options def _network_options(self): network_options = [] network_options.extend(["-net", "none"]) # we do not want any user networking back-end if no adapter is connected. for adapter_number, adapter in enumerate(self._ethernet_adapters): # TODO: let users specify a base mac address mac = "00:00:ab:%s:%s:%02x" % (self.id[-4:-2], self.id[-2:], adapter_number) nio = adapter.get_nio(0) if self._legacy_networking: # legacy QEMU networking syntax (-net) if nio: network_options.extend(["-net", "nic,vlan={},macaddr={},model={}".format(adapter_number, mac, self._adapter_type)]) if isinstance(nio, NIOUDP): network_options.extend(["-net", "udp,vlan={},name=gns3-{},sport={},dport={},daddr={}".format(adapter_number, adapter_number, nio.lport, nio.rport, nio.rhost)]) elif isinstance(nio, NIOTAP): network_options.extend(["-net", "tap,name=gns3-{},ifname={}".format(adapter_number, nio.tap_device)]) elif isinstance(nio, NIONAT): network_options.extend(["-net", "user,vlan={},name=gns3-{}".format(adapter_number, adapter_number)]) else: network_options.extend(["-net", "nic,vlan={},macaddr={},model={}".format(adapter_number, mac, self._adapter_type)]) else: # newer QEMU networking syntax if nio: network_options.extend(["-device", "{},mac={},netdev=gns3-{}".format(self._adapter_type, mac, adapter_number)]) if isinstance(nio, NIOUDP): network_options.extend(["-netdev", "socket,id=gns3-{},udp={}:{},localaddr={}:{}".format(adapter_number, nio.rhost, nio.rport, self._host, nio.lport)]) elif isinstance(nio, NIOTAP): network_options.extend(["-netdev", "tap,id=gns3-{},ifname={}".format(adapter_number, nio.tap_device)]) elif isinstance(nio, NIONAT): network_options.extend(["-netdev", "user,id=gns3-{}".format(adapter_number)]) else: network_options.extend(["-device", "{},mac={}".format(self._adapter_type, mac)]) return network_options def _graphic(self): """ Adds the correct graphic options depending of the OS """ if sys.platform.startswith("win"): return [] if len(os.environ.get("DISPLAY", "")) > 0: return [] return ["-nographic"] @asyncio.coroutine def _build_command(self): """ Command to start the QEMU process. (to be passed to subprocess.Popen()) """ command = [self.qemu_path] command.extend(["-name", self._name]) command.extend(["-m", str(self._ram)]) disk_options = yield from self._disk_options() command.extend(disk_options) command.extend(self._linux_boot_options()) command.extend(self._serial_options()) command.extend(self._monitor_options()) additional_options = self._options.strip() if additional_options: try: command.extend(shlex.split(additional_options)) except ValueError as e: QemuError("Invalid additional options: {} error {}".format(additional_options, e)) command.extend(self._network_options()) command.extend(self._graphic()) return command def __json__(self): answer = { "project_id": self.project.id, "vm_id": self.id } # Qemu has a long list of options. The JSON schema is the single source of information for field in QEMU_OBJECT_SCHEMA["required"]: if field not in answer: answer[field] = getattr(self, field) answer["hda_disk_image"] = self.manager.get_relative_image_path(self._hda_disk_image) answer["hdb_disk_image"] = self.manager.get_relative_image_path(self._hdb_disk_image) answer["hdc_disk_image"] = self.manager.get_relative_image_path(self._hdc_disk_image) answer["hdd_disk_image"] = self.manager.get_relative_image_path(self._hdd_disk_image) answer["initrd"] = self.manager.get_relative_image_path(self._initrd) answer["kernel_image"] = self.manager.get_relative_image_path(self._kernel_image) return answer