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gns3-server/gns3server/controller/gns3vm/__init__.py
2021-04-17 23:34:28 +09:30

413 lines
13 KiB
Python

#!/usr/bin/env python
#
# Copyright (C) 2016 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/>.
import sys
import copy
import asyncio
import ipaddress
from ...utils.asyncio import locking
from .vmware_gns3_vm import VMwareGNS3VM
from .virtualbox_gns3_vm import VirtualBoxGNS3VM
from .hyperv_gns3_vm import HyperVGNS3VM
from .remote_gns3_vm import RemoteGNS3VM
from .gns3_vm_error import GNS3VMError
from ...version import __version__
from ..compute import ComputeError
from ..controller_error import ControllerError
import logging
log = logging.getLogger(__name__)
class GNS3VM:
"""
Proxy between the controller and the GNS3 VM engine
"""
def __init__(self, controller):
self._controller = controller
# Keep instance of the loaded engines
self._engines = {}
self._settings = {
"vmname": None,
"when_exit": "stop",
"headless": False,
"enable": False,
"engine": "vmware",
"allocate_vcpus_ram": True,
"ram": 2048,
"vcpus": 1,
"port": 80,
}
def engine_list(self):
"""
:returns: Return list of engines supported by GNS3 for the GNS3VM
"""
download_url = "https://github.com/GNS3/gns3-gui/releases/download/v{version}/GNS3.VM.VMware.Workstation.{version}.zip".format(
version=__version__
)
vmware_info = {
"engine_id": "vmware",
"description": f'VMware is the recommended choice for best performances.<br>The GNS3 VM can be <a href="{download_url}">downloaded here</a>.',
"support_when_exit": True,
"support_headless": True,
"support_ram": True,
}
if sys.platform.startswith("darwin"):
vmware_info["name"] = "VMware Fusion (recommended)"
else:
vmware_info["name"] = "VMware Workstation / Player (recommended)"
download_url = (
"https://github.com/GNS3/gns3-gui/releases/download/v{version}/GNS3.VM.Hyper-V.{version}.zip".format(
version=__version__
)
)
hyperv_info = {
"engine_id": "hyper-v",
"name": "Hyper-V",
"description": f'Hyper-V support (Windows 10/Server 2016 and above). Nested virtualization must be supported and enabled (Intel processor only)<br>The GNS3 VM can be <a href="{download_url}">downloaded here</a>',
"support_when_exit": True,
"support_headless": False,
"support_ram": True,
}
download_url = (
"https://github.com/GNS3/gns3-gui/releases/download/v{version}/GNS3.VM.VirtualBox.{version}.zip".format(
version=__version__
)
)
virtualbox_info = {
"engine_id": "virtualbox",
"name": "VirtualBox",
"description": f'VirtualBox support. Nested virtualization for both Intel and AMD processors is supported since version 6.1<br>The GNS3 VM can be <a href="{download_url}">downloaded here</a>',
"support_when_exit": True,
"support_headless": True,
"support_ram": True,
}
remote_info = {
"engine_id": "remote",
"name": "Remote",
"description": "Use a remote GNS3 server as the GNS3 VM.",
"support_when_exit": False,
"support_headless": False,
"support_ram": False,
}
engines = [vmware_info, virtualbox_info, remote_info]
if sys.platform.startswith("win"):
engines.append(hyperv_info)
return engines
def current_engine(self):
return self._get_engine(self._settings["engine"])
@property
def engine(self):
return self._settings["engine"]
@property
def ip_address(self):
"""
Returns the GNS3 VM IP address.
:returns: VM IP address
"""
return self.current_engine().ip_address
@property
def running(self):
"""
Returns if the GNS3 VM is running.
:returns: Boolean
"""
return self.current_engine().running
@property
def user(self):
"""
Returns the GNS3 VM user.
:returns: VM user
"""
return self.current_engine().user
@property
def password(self):
"""
Returns the GNS3 VM password.
:returns: VM password
"""
return self.current_engine().password
@property
def port(self):
"""
Returns the GNS3 VM port.
:returns: VM port
"""
return self.current_engine().port
@property
def protocol(self):
"""
Returns the GNS3 VM protocol.
:returns: VM protocol
"""
return self.current_engine().protocol
@property
def enable(self):
"""
The GNSVM is activated
"""
return self._settings.get("enable", False)
@property
def when_exit(self):
"""
What should be done when exit
"""
return self._settings["when_exit"]
@property
def settings(self):
return self._settings
@settings.setter
def settings(self, val):
self._settings.update(val)
async def update_settings(self, settings):
"""
Update settings and will restart the VM if require
"""
new_settings = copy.copy(self._settings)
new_settings.update(settings)
if self.settings != new_settings:
try:
await self._stop()
finally:
self._settings = settings
self._controller.save()
if self.enable:
await self.start()
else:
# When user fix something on his system and try again
if self.enable and not self.current_engine().running:
await self.start()
def _get_engine(self, engine):
"""
Load an engine
"""
if engine in self._engines:
return self._engines[engine]
if engine == "vmware":
self._engines["vmware"] = VMwareGNS3VM(self._controller)
return self._engines["vmware"]
elif engine == "hyper-v":
self._engines["hyper-v"] = HyperVGNS3VM(self._controller)
return self._engines["hyper-v"]
elif engine == "virtualbox":
self._engines["virtualbox"] = VirtualBoxGNS3VM(self._controller)
return self._engines["virtualbox"]
elif engine == "remote":
self._engines["remote"] = RemoteGNS3VM(self._controller)
return self._engines["remote"]
raise NotImplementedError(f"The engine {engine} for the GNS3 VM is not supported")
def asdict(self):
return self._settings
@locking
async def list(self, engine):
"""
List VMS for an engine
"""
engine = self._get_engine(engine)
vms = []
try:
for vm in await engine.list():
vms.append({"vmname": vm["vmname"]})
except GNS3VMError as e:
# We raise error only if user activated the GNS3 VM
# otherwise you have noise when VMware is not installed
if self.enable:
raise e
return vms
async def auto_start_vm(self):
"""
Auto start the GNS3 VM if require
"""
if self.enable:
try:
await self.start()
except GNS3VMError as e:
# User will receive the error later when they will try to use the node
try:
compute = await self._controller.add_compute(
compute_id="vm", name=f"GNS3 VM ({self.current_engine().vmname})", host=None, force=True
)
compute.set_last_error(str(e))
except ControllerError:
pass
log.error(f"Cannot start the GNS3 VM: {e}")
async def exit_vm(self):
if self.enable:
try:
if self._settings["when_exit"] == "stop":
await self._stop()
elif self._settings["when_exit"] == "suspend":
await self._suspend()
except GNS3VMError as e:
log.warning(str(e))
@locking
async def start(self):
"""
Start the GNS3 VM
"""
engine = self.current_engine()
if not engine.running:
if self._settings["vmname"] is None:
return
log.info("Start the GNS3 VM")
engine.allocate_vcpus_ram = self._settings["allocate_vcpus_ram"]
engine.vmname = self._settings["vmname"]
engine.ram = self._settings["ram"]
engine.vcpus = self._settings["vcpus"]
engine.headless = self._settings["headless"]
engine.port = self._settings["port"]
compute = await self._controller.add_compute(
compute_id="vm", name=f"GNS3 VM is starting ({engine.vmname})", host=None, force=True, connect=False
)
try:
await engine.start()
except Exception as e:
await self._controller.delete_compute("vm")
log.error(f"Cannot start the GNS3 VM: {str(e)}")
await compute.update(name=f"GNS3 VM ({engine.vmname})")
compute.set_last_error(str(e))
raise e
await compute.connect() # we can connect now that the VM has started
await compute.update(
name=f"GNS3 VM ({engine.vmname})",
protocol=self.protocol,
host=self.ip_address,
port=self.port,
user=self.user,
password=self.password,
)
# check if the VM is in the same subnet as the local server, start 10 seconds later to give
# some time for the compute in the VM to be ready for requests
asyncio.get_event_loop().call_later(10, lambda: asyncio.ensure_future(self._check_network(compute)))
async def _check_network(self, compute):
"""
Check that the VM is in the same subnet as the local server
"""
try:
vm_interfaces = await compute.interfaces()
vm_interface_netmask = None
for interface in vm_interfaces:
if interface["ip_address"] == self.ip_address:
vm_interface_netmask = interface["netmask"]
break
if vm_interface_netmask:
vm_network = ipaddress.ip_interface(f"{compute.host_ip}/{vm_interface_netmask}").network
for compute_id in self._controller.computes:
if compute_id == "local":
compute = self._controller.get_compute(compute_id)
interfaces = await compute.interfaces()
netmask = None
for interface in interfaces:
if interface["ip_address"] == compute.host_ip:
netmask = interface["netmask"]
break
if netmask:
compute_network = ipaddress.ip_interface(f"{compute.host_ip}/{netmask}").network
if vm_network.compare_networks(compute_network) != 0:
msg = "The GNS3 VM (IP={}, NETWORK={}) is not on the same network as the {} server (IP={}, NETWORK={}), please make sure the local server binding is in the same network as the GNS3 VM".format(
self.ip_address, vm_network, compute_id, compute.host_ip, compute_network
)
self._controller.notification.controller_emit("log.warning", {"message": msg})
except ComputeError as e:
log.warning(f"Could not check the VM is in the same subnet as the local server: {e}")
except ControllerError as e:
log.warning(f"Could not check the VM is in the same subnet as the local server: {e}")
@locking
async def _suspend(self):
"""
Suspend the GNS3 VM
"""
engine = self.current_engine()
if "vm" in self._controller.computes:
await self._controller.delete_compute("vm")
if engine.running:
log.info("Suspend the GNS3 VM")
await engine.suspend()
@locking
async def _stop(self):
"""
Stop the GNS3 VM
"""
engine = self.current_engine()
if "vm" in self._controller.computes:
await self._controller.delete_compute("vm")
if engine.running:
log.info("Stop the GNS3 VM")
await engine.stop()