#
# NEPI, a framework to manage network experiments
# Copyright (C) 2013 INRIA
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License version 2 as
# published by the Free Software Foundation;
#
# 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 .
#
# Author: Alina Quereilhac
from nepi.execution.attribute import Attribute, Flags, Types
from nepi.execution.resource import clsinit_copy, ResourceState
from nepi.resources.linux.application import LinuxApplication
from nepi.resources.linux.node import LinuxNode
from nepi.util.timefuncs import tnow, tdiffsec
import os
import time
PYTHON_VSYS_VERSION = "1.0"
@clsinit_copy
class LinuxTap(LinuxApplication):
_rtype = "linux::Tap"
_help = "Creates a TAP device on a Linux host"
IFF_TUN = 0x0001
IFF_TAP = 0x0002
@classmethod
def _register_attributes(cls):
ip = Attribute("ip", "IPv4 Address",
flags = Flags.Design)
mac = Attribute("mac", "MAC Address",
flags = Flags.Design)
prefix = Attribute("prefix", "IPv4 network prefix",
flags = Flags.Design)
mtu = Attribute("mtu", "Maximum transmition unit for device",
type = Types.Integer)
devname = Attribute("deviceName",
"Name of the network interface (e.g. eth0, wlan0, etc)",
flags = Flags.NoWrite)
up = Attribute("up", "Link up", default=True,
type = Types.Bool)
pointopoint = Attribute("pointopoint", "Peer IP address",
flags = Flags.Design)
txqueuelen = Attribute("txqueuelen", "Length of transmission queue",
flags = Flags.Design)
txqueuelen = Attribute("txqueuelen", "Length of transmission queue",
flags = Flags.Design)
gre_key = Attribute("greKey",
"GRE key to be used to configure GRE tunnel",
default = "1",
flags = Flags.Design)
gre_remote = Attribute("greRemote",
"Public IP of remote endpoint for GRE tunnel",
flags = Flags.Design)
pi = Attribute("pi", "Add PI (protocol information) header",
default = False,
type = Types.Bool)
tear_down = Attribute("tearDown",
"Bash script to be executed before releasing the resource",
flags = Flags.Design)
cls._register_attribute(ip)
cls._register_attribute(mac)
cls._register_attribute(prefix)
cls._register_attribute(mtu)
cls._register_attribute(devname)
cls._register_attribute(up)
cls._register_attribute(pointopoint)
cls._register_attribute(txqueuelen)
cls._register_attribute(gre_key)
cls._register_attribute(gre_remote)
cls._register_attribute(pi)
cls._register_attribute(tear_down)
def __init__(self, ec, guid):
super(LinuxTap, self).__init__(ec, guid)
self._gre_enabled = None
self._vif_prefix = "tap"
self._vif_type = "IFF_TAP"
self._vif_type_flag = LinuxTap.IFF_TAP
self._home = "%s-%s" % (self.vif_prefix, self.guid)
@property
def node(self):
node = self.get_connected(LinuxNode.get_rtype())
if node: return node[0]
raise RuntimeError, "linux::TAP/TUN devices must be connected to a linux::Node"
@property
def gre_enabled(self):
if self._gre_enabled is None:
from nepi.resources.linux.gretunnel import LinuxGRETunnel
gre = self.get_connected(LinuxGRETunnel.get_rtype())
if gre: self._gre_enabled = True
return self._gre_enabled
def upload_sources(self):
scripts = []
# udp-connect python script
udp_connect = os.path.join(os.path.dirname(__file__), "scripts",
"linux-udp-connect.py")
scripts.append(udp_connect)
tap_create = os.path.join(os.path.dirname(__file__), "scripts",
"linux-tap-create.py")
scripts.append(tap_create)
tap_delete = os.path.join(os.path.dirname(__file__), "scripts",
"linux-tap-delete.py")
scripts.append(tap_delete)
# tunnel creation python script
tunchannel = os.path.join(os.path.dirname(__file__), "scripts",
"tunchannel.py")
scripts.append(tunchannel)
# Upload scripts
scripts = ";".join(scripts)
self.node.upload(scripts,
os.path.join(self.node.src_dir),
overwrite = False)
# upload stop.sh script
stop_command = self.replace_paths(self._stop_command)
self.node.upload(stop_command,
os.path.join(self.app_home, "stop.sh"),
text = True,
# Overwrite file every time.
# The stop.sh has the path to the socket, which should change
# on every experiment run.
overwrite = True)
def upload_start_command(self):
# If GRE mode is enabled, TAP creation is delayed until the
# tunnel is established
if not self.gre_enabled:
# We want to make sure the device is up and running
# before the deploy is over, so we execute the
# start script now and wait until it finishes.
command = self.get("command")
command = self.replace_paths(command)
shfile = os.path.join(self.app_home, "start.sh")
self.node.run_and_wait(command, self.run_home,
shfile = shfile,
overwrite = True)
def upload_start_command(self):
# If GRE mode is enabled, TAP creation is delayed until the
# tunnel is established
if not self.gre_enabled:
# Overwrite file every time.
# The start.sh has the path to the socket, wich should change
# on every experiment run.
command = self.get("command")
self.info("Uploading command '%s'" % command)
# replace application specific paths in the command
command = self.replace_paths(command)
# replace application specific paths in the environment
env = self.get("env")
env = env and self.replace_paths(env)
shfile = os.path.join(self.app_home, "start.sh")
self.node.upload_command(command,
shfile = shfile,
env = env,
overwrite = True)
# We want to make sure the device is up and running
# before the deploy finishes, so we execute now the
# start script. We run it in background, because the
# TAP will live for as long as the process that
# created it is running, and wait until the TAP
# is created.
self._run_in_background()
def do_deploy(self):
if not self.node or self.node.state < ResourceState.PROVISIONED:
self.ec.schedule(self.reschedule_delay, self.deploy)
else:
if self.gre_enabled:
self._vif_prefix = "gre"
self._home = "%s-%s" % (self.vif_prefix, self.guid)
if not self.get("deviceName"):
self.set("deviceName", "%s%d" % (self.vif_prefix, self.guid))
if not self.get("command"):
self.set("command", self._start_command)
if not self.get("depends"):
self.set("depends", self._dependencies)
if not self.get("install"):
self.set("install", self._install)
self.do_discover()
self.do_provision()
self.set_ready()
def do_start(self):
if self.state == ResourceState.READY:
command = self.get("command")
self.info("Starting command '%s'" % command)
self.set_started()
else:
msg = " Failed to execute command '%s'" % command
self.error(msg, out, err)
raise RuntimeError, msg
def do_stop(self):
command = self.get('command') or ''
if self.state == ResourceState.STARTED:
self.info("Stopping command '%s'" % command)
command = "bash %s" % os.path.join(self.app_home, "stop.sh")
(out, err), proc = self.execute_command(command,
blocking = True)
if err:
msg = " Failed to stop command '%s' " % command
self.error(msg, out, err)
self.set_stopped()
@property
def state(self):
state_check_delay = 0.5
if self._state == ResourceState.STARTED and \
tdiffsec(tnow(), self._last_state_check) > state_check_delay:
if self.get("deviceName"):
(out, err), proc = self.node.execute("ifconfig")
if out.strip().find(self.get("deviceName")) == -1:
# tap is not running is not running (socket not found)
self.set_stopped()
self._last_state_check = tnow()
return self._state
def do_release(self):
# Node needs to wait until all associated RMs are released
# to be released
from nepi.resources.linux.tunnel import LinuxTunnel
rms = self.get_connected(LinuxTunnel.get_rtype())
for rm in rms:
if rm.state < ResourceState.STOPPED:
self.ec.schedule(self.reschedule_delay, self.release)
return
super(LinuxTap, self).do_release()
def gre_connect(self, remote_endpoint, connection_app_home,
connection_run_home):
gre_connect_command = self._gre_connect_command(remote_endpoint,
connection_app_home, connection_run_home)
# upload command to connect.sh script
shfile = os.path.join(connection_app_home, "gre-connect.sh")
self.node.upload_command(gre_connect_command,
shfile = shfile,
overwrite = False)
# invoke connect script
cmd = "bash %s" % shfile
(out, err), proc = self.node.run(cmd, connection_run_home,
pidfile = "gre_connect_pidfile",
stdout = "gre_connect_stdout",
stderr = "gre_connect_stderr",
)
# check if execution errors occurred
msg = " Failed to connect endpoints "
if proc.poll() or err:
self.error(msg, out, err)
raise RuntimeError, msg
# Wait for pid file to be generated
pid, ppid = self.node.wait_pid(connection_run_home,
pidfile = "gre_connect_pidfile")
# If the process is not running, check for error information
# on the remote machine
if not pid or not ppid:
(out, err), proc = self.node.check_errors(connection_run_home,
stderr = "gre_connect_stderr")
# Out is what was written in the stderr file
if err:
msg = " Failed to start command '%s' " % command
self.error(msg, out, err)
raise RuntimeError, msg
return True
def initiate_udp_connection(self, remote_endpoint, connection_app_home,
connection_run_home, cipher, cipher_key, bwlimit, txqueuelen):
port = self.udp_connect(remote_endpoint, connection_app_home,
connection_run_home, cipher, cipher_key, bwlimit, txqueuelen)
return port
def udp_connect(self, remote_endpoint, connection_app_home,
connection_run_home, cipher, cipher_key, bwlimit, txqueuelen):
udp_connect_command = self._udp_connect_command(
remote_endpoint, connection_app_home, connection_run_home,
cipher, cipher_key, bwlimit, txqueuelen)
# upload command to connect.sh script
shfile = os.path.join(connection_app_home, "udp-connect.sh")
self.node.upload_command(udp_connect_command,
shfile = shfile,
overwrite = False)
# invoke connect script
cmd = "bash %s" % shfile
(out, err), proc = self.node.run(cmd, connection_run_home,
pidfile = "udp_connect_pidfile",
stdout = "udp_connect_stdout",
stderr = "udp_connect_stderr",
)
# check if execution errors occurred
msg = "Failed to connect endpoints "
if proc.poll():
self.error(msg, out, err)
raise RuntimeError, msg
# Wait for pid file to be generated
self._pid, self._ppid = self.node.wait_pid(
connection_run_home,
pidfile = "udp_connect_pidfile")
# If the process is not running, check for error information
# on the remote machine
if not self._pid or not self._ppid:
(out, err), proc = self.node.check_errors(
connection_run_home,
stderr = "udp_connect_stderr")
# Out is what was written in the stderr file
if err:
msg = " Failed to start command '%s' " % command
self.error(msg, out, err)
raise RuntimeError, msg
return self.wait_file(connection_run_home, "local_port")
def establish_udp_connection(self, remote_endpoint,
connection_app_home, connection_run_home, port):
# upload remote port number to file
rem_port = "%s\n" % port
self.node.upload(rem_port,
os.path.join(connection_run_home, "remote_port"),
text = True,
overwrite = False)
def verify_connection(self, remote_endpoint,
connection_app_home, connection_run_home):
return self.wait_file(connection_run_home, "ret_file")
def terminate_connection(self, remote_endpoint,
connection_app_home, connection_run_home):
if self._pid and self._ppid:
(out, err), proc = self.node.kill(self._pid, self._ppid,
sudo = True)
# check if execution errors occurred
if proc.poll() and err:
msg = " Failed to Kill the Tap"
self.error(msg, out, err)
raise RuntimeError, msg
def check_status(self):
return self.node.status(self._pid, self._ppid)
def wait_file(self, home, filename):
""" Waits until file on endpoint is generated """
result = None
delay = 1.0
for i in xrange(20):
(out, err), proc = self.node.check_output(home, filename)
if out:
result = out.strip()
break
else:
time.sleep(delay)
delay = delay * 1.5
else:
msg = "Couldn't retrieve %s" % filename
self.error(msg, out, err)
raise RuntimeError, msg
return result
@property
def _start_command(self):
if self.gre_enabled:
command = []
else:
command = ["sudo -S "]
command.append("PYTHONPATH=$PYTHONPATH:${SRC}")
command.append("python ${SRC}/linux-tap-create.py")
command.append("-t %s" % self.vif_type)
command.append("-a %s" % self.get("ip"))
command.append("-n %s" % self.get("prefix"))
command.append("-N %s " % self.get("deviceName"))
command.append("-S %s " % self.sock_name)
if self.get("pi"):
command.append("-p")
return " ".join(command)
@property
def _stop_command(self):
if self.gre_enabled:
command = self._stop_gre_command
else:
command = ["sudo -S "]
command.append("PYTHONPATH=$PYTHONPATH:${SRC}")
command.append("python ${SRC}/linux-tap-delete.py")
command.append("-N %s " % self.get("deviceName"))
command.append("-S %s " % self.sock_name)
command = " ".join(command)
return command
def _gre_connect_command(self, remote_endpoint,
connection_app_home, connecrion_app_home):
# Set the remote endpoint to (private) device IP
self.set("pointopoint", remote_endpoint.get("ip"))
## public node IP
self.set("greRemote", remote_endpoint.node.get("ip"))
# Generate GRE connect command
command = ["("]
command.append(self._stop_gre_command)
command.append(") ; (")
command.append(self._start_gre_command)
command.append(")")
command = " ".join(command)
command = self.replace_paths(command)
return command
@property
def _start_gre_command(self):
command = []
command.append("sudo -S modprobe ip_gre")
command.append("sudo -S ip tunnel add %s mode gre remote %s local %s ttl 255 csum key %s" % (
self.get("deviceName"),
self.get("greRemote"),
self.node.get("ip"),
self.get("greKey")
))
command.append("sudo -S ip addr add %s/%s peer %s/%s dev %s" % (
self.get("ip"),
self.get("prefix"),
self.get("pointopoint"),
self.get("prefix"),
self.get("deviceName"),
))
command.append("sudo -S ip link set %s up " % self.get("deviceName"))
return ";".join(command)
@property
def _stop_gre_command(self):
command = []
command.append("sudo -S modprobe -r ip_gre")
command.append("sudo -S ip link set down dev %s" % (
self.get("deviceName"),
))
command.append("sudo -S ip link del dev %s" % (
self.get("deviceName"),
))
return ";".join(command)
def _udp_connect_command(self, remote_endpoint,
connection_app_home, connection_run_home,
cipher, cipher_key, bwlimit, txqueuelen):
# Set the remote endpoint to the IP of the device
self.set("pointopoint", remote_endpoint.get("ip"))
# Public IP of the remote NODE to stablish tunnel
remote_ip = remote_endpoint.node.get("ip")
local_ip = self.node.get("ip")
local_port_file = os.path.join(connection_run_home,
"local_port")
remote_port_file = os.path.join(connection_run_home,
"remote_port")
ret_file = os.path.join(connection_run_home,
"ret_file")
# Generate UDP connect command
# Use the start command to configure TAP with peer info
start_command = self._start_command
command = [""]
# Use pl-vid-udp-connect.py to stablish the tunnel between endpoints
command.append("sudo -S")
command.append("PYTHONPATH=$PYTHONPATH:${SRC}")
command.append("python ${SRC}/linux-udp-connect.py")
command.append("-t %s" % self.vif_type)
command.append("-S %s " % self.sock_name)
command.append("-p %s " % local_port_file)
command.append("-P %s " % remote_port_file)
command.append("-o %s " % local_ip)
command.append("-O %s " % remote_ip)
command.append("-R %s " % ret_file)
if self.get("pi"):
command.append("-n")
if cipher:
command.append("-c %s " % cipher)
if cipher_key:
command.append("-k %s " % cipher_key)
if txqueuelen:
command.append("-q %s " % txqueuelen)
if bwlimit:
command.append("-b %s " % bwlimit)
command = " ".join(command)
command = self.replace_paths(command)
return command
@property
def _dependencies(self):
return "mercurial make gcc"
@property
def _install(self):
# Install python-vsys and python-passfd
install_passfd = ( " ( python -c 'import passfd' ) "
" || "
" ( "
" cd ${SRC} ; "
" hg clone http://nepi.inria.fr/code/python-passfd ; "
" cd python-passfd ; "
" make all ; "
" sudo -S make install "
" )" )
return install_passfd
def valid_connection(self, guid):
# TODO: Validate!
return True
@property
def vif_type(self):
return self._vif_type
@property
def vif_type_flag(self):
return self._vif_type_flag
@property
def vif_prefix(self):
return self._vif_prefix
@property
def sock_name(self):
return os.path.join(self.run_home, "%s.sock" % self.vif_prefix)
def valid_connection(self, guid):
# TODO: Validate!
return True