gns3-server/gns3server/modules/qemu/qemu_vm.py
Julien Duponchelle b03b9226ff So we have running code for a qemu module
Now the handlers. The telnet code is not yet async
2015-02-19 16:46:57 +01:00

984 lines
38 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/>.
"""
QEMU VM instance.
"""
import sys
import os
import shutil
import random
import subprocess
import shlex
import ntpath
import telnetlib
import time
import re
import asyncio
from gns3server.config import Config
from .qemu_error import QemuError
from ..adapters.ethernet_adapter import EthernetAdapter
from ..nios.nio_udp import NIO_UDP
from ..base_vm import BaseVM
from ...utils.asyncio import subprocess_check_output
import logging
log = logging.getLogger(__name__)
class QemuVM(BaseVM):
module_name = 'qemu'
"""
QEMU VM implementation.
:param name: name of this Qemu vm
:param vm_id: IOU instance identifier
:param project: Project instance
:param manager: parent VM Manager
:param console: TCP console port
:param qemu_path: path to the QEMU binary
:param host: host/address to bind for console and UDP connections
:param qemu_id: QEMU 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
:param monitor: TCP monitor port
:param monitor_host: IP address to bind for monitor connections
:param monitor_start_port_range: TCP monitor port range start
:param monitor_end_port_range: TCP monitor port range end
"""
def __init__(self,
name,
vm_id,
project,
manager,
qemu_path=None,
host="127.0.0.1",
console=None,
console_host="0.0.0.0",
console_start_port_range=5001,
console_end_port_range=5500,
monitor=None,
monitor_host="0.0.0.0",
monitor_start_port_range=5501,
monitor_end_port_range=6000):
super().__init__(name, vm_id, project, manager, console=console)
self._host = host
self._command = []
self._started = False
self._process = None
self._cpulimit_process = None
self._stdout_file = ""
self._console_host = console_host
self._console_start_port_range = console_start_port_range
self._console_end_port_range = console_end_port_range
self._monitor_host = monitor_host
self._monitor_start_port_range = monitor_start_port_range
self._monitor_end_port_range = monitor_end_port_range
# QEMU settings
self.qemu_path = qemu_path
self._hda_disk_image = ""
self._hdb_disk_image = ""
self._options = ""
self._ram = 256
self._console = console
self._monitor = monitor
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"
if self._monitor is not None:
self._monitor = self._manager.port_manager.reserve_console_port(self._monitor)
else:
self._monitor = self._manager.port_manager.get_free_console_port()
self.adapters = 1 # creates 1 adapter by default
log.info("QEMU VM {name} [id={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
@monitor.setter
def monitor(self, monitor):
"""
Sets the TCP monitor port.
:param monitor: monitor port (integer)
"""
if monitor == self._monitor:
return
if self._monitor:
self._manager.port_manager.release_monitor_port(self._monitor)
self._monitor = self._manager.port_manager.reserve_monitor_port(monitor)
log.info("{module}: '{name}' [{id}]: monitor port set to {port}".format(
module=self.manager.module_name,
name=self.name,
id=self.id,
port=monitor))
def delete(self):
"""
Deletes this QEMU 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._monitor and self._monitor in self._allocated_monitor_ports:
self._allocated_monitor_ports.remove(self._monitor)
log.info("QEMU VM {name} [id={id}] has been deleted".format(name=self._name,
id=self._id))
@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={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
"""
log.info("QEMU VM {name} [id={id}] has set the QEMU hda disk image path to {disk_image}".format(name=self._name,
id=self._id,
disk_image=hda_disk_image))
self._hda_disk_image = 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
"""
log.info("QEMU VM {name} [id={id}] has set the QEMU hdb disk image path to {disk_image}".format(name=self._name,
id=self._id,
disk_image=hdb_disk_image))
self._hdb_disk_image = hdb_disk_image
@property
def adapters(self):
"""
Returns the number of Ethernet adapters for this QEMU 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 QEMU VM instance.
:param adapters: number of adapters
"""
self._ethernet_adapters.clear()
for adapter_id in range(0, adapters):
self._ethernet_adapters.append(EthernetAdapter())
log.info("QEMU VM {name} [id={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 instance.
: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 instance.
:param adapter_type: adapter type (string)
"""
self._adapter_type = adapter_type
log.info("QEMU VM {name} [id={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={id}] has enabled legacy networking".format(name=self._name, id=self._id))
else:
log.info("QEMU VM {name} [id={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={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={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={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={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
"""
log.info("QEMU VM {name} [id={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
"""
log.info("QEMU VM {name} [id={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={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.poll() 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
self.resume()
return
else:
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") 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 instance {} started PID={}".format(self._id, 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 instance {} PID={}".format(self._id, self._process.pid))
try:
self._process.terminate()
self._process.wait(1)
except subprocess.TimeoutExpired:
self._process.kill()
if self._process.poll() is None:
log.warn("QEMU VM instance {} PID={} is still running".format(self._id,
self._process.pid))
self._process = None
self._started = False
self._stop_cpulimit()
@asyncio.coroutine
def _control_vm(self, command, expected=None, timeout=30):
"""
Executes a command with QEMU monitor when this VM is running.
:param command: QEMU monitor command (e.g. info status, stop etc.)
:param timeout: how long to wait for QEMU monitor
:returns: result of the command (Match object or None)
"""
result = None
if self.is_running() and self._monitor:
log.debug("Execute QEMU monitor command: {}".format(command))
try:
tn = telnetlib.Telnet(self._monitor_host, self._monitor, timeout=timeout)
except OSError as e:
log.warn("Could not connect to QEMU monitor: {}".format(e))
return result
try:
tn.write(command.encode('ascii') + b"\n")
time.sleep(0.1)
except OSError as e:
log.warn("Could not write to QEMU monitor: {}".format(e))
tn.close()
return result
if expected:
try:
ind, match, dat = tn.expect(list=expected, timeout=timeout)
if match:
result = match
except EOFError as e:
log.warn("Could not read from QEMU monitor: {}".format(e))
tn.close()
return result
@asyncio.coroutine
def close(self):
yield from self.stop()
if self._console:
self._manager.port_manager.release_console_port(self._console)
self._console = None
if self._monitor:
self._manager.port_manager.release_console_port(self._monitor)
self._monitor = None
@asyncio.coroutine
def _get_vm_status(self):
"""
Returns this VM suspend status (running|paused)
:returns: status (string)
"""
result = None
match = yield from self._control_vm("info status", [b"running", b"paused"])
if match:
result = match.group(0).decode('ascii')
return result
@asyncio.coroutine
def suspend(self):
"""
Suspends this QEMU VM.
"""
vm_status = yield from self._get_vm_status()
if 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 == "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 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 QemuError("Adapter {adapter_id} doesn't exist on QEMU VM {name}".format(name=self._name,
adapter_id=adapter_id))
if self.is_running():
# dynamically configure an UDP tunnel on the QEMU VM adapter
if nio and isinstance(nio, NIO_UDP):
if self._legacy_networking:
yield from self._control_vm("host_net_remove {} gns3-{}".format(adapter_id, adapter_id))
yield from self._control_vm("host_net_add udp vlan={},name=gns3-{},sport={},dport={},daddr={}".format(adapter_id,
adapter_id,
nio.lport,
nio.rport,
nio.rhost))
else:
yield from self._control_vm("host_net_remove {} gns3-{}".format(adapter_id, adapter_id))
yield from self._control_vm("host_net_add socket vlan={},name=gns3-{},udp={}:{},localaddr={}:{}".format(adapter_id,
adapter_id,
nio.rhost,
nio.rport,
self._host,
nio.lport))
adapter.add_nio(0, nio)
log.info("QEMU VM {name} [id={id}]: {nio} added to adapter {adapter_id}".format(name=self._name,
id=self._id,
nio=nio,
adapter_id=adapter_id))
@asyncio.coroutine
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 QemuError("Adapter {adapter_id} doesn't exist on QEMU VM {name}".format(name=self._name,
adapter_id=adapter_id))
if self.is_running():
# dynamically disable the QEMU VM adapter
yield from self._control_vm("host_net_remove {} gns3-{}".format(adapter_id, adapter_id))
yield from self._control_vm("host_net_add user vlan={},name=gns3-{}".format(adapter_id, adapter_id))
nio = adapter.get_nio(0)
adapter.remove_nio(0)
log.info("QEMU 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
@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, errors="replace") as file:
output = file.read()
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:
return True
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._console_host, self._console)]
else:
return []
def _monitor_options(self):
if self._monitor:
return ["-monitor", "telnet:{}:{},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, "128M")
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 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 disk image {}".format(e))
options.extend(["-hdb", hdb_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 = []
adapter_id = 0
for adapter in self._ethernet_adapters:
# TODO: let users specify a base mac address
mac = "00:00:ab:%02x:%02x:%02d" % (random.randint(0x00, 0xff), random.randint(0x00, 0xff), adapter_id)
network_options.extend(["-net", "nic,vlan={},macaddr={},model={}".format(adapter_id, mac, self._adapter_type)])
nio = adapter.get_nio(0)
if nio and isinstance(nio, NIO_UDP):
if self._legacy_networking:
network_options.extend(["-net", "udp,vlan={},name=gns3-{},sport={},dport={},daddr={}".format(adapter_id,
adapter_id,
nio.lport,
nio.rport,
nio.rhost)])
else:
network_options.extend(["-net", "socket,vlan={},name=gns3-{},udp={}:{},localaddr={}:{}".format(adapter_id,
adapter_id,
nio.rhost,
nio.rport,
self._host,
nio.lport)])
else:
network_options.extend(["-net", "user,vlan={},name=gns3-{}".format(adapter_id, adapter_id)])
adapter_id += 1
return network_options
@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:
command.extend(shlex.split(additional_options))
command.extend(self._network_options())
return command