X-Git-Url: http://git.onelab.eu/?a=blobdiff_plain;f=src%2Fnepi%2Fresources%2Flinux%2Ftap.py;h=ac11eb0aca78f1ed8eb59fdd89a13412a4fde5ea;hb=6285ca51026efb69642eea9dfc7c480e722d84a9;hp=f2e42a682b643dc88e3a6956d94873a8cb2b9348;hpb=f7c6792813947d3707accd690ad7bbe83277798f;p=nepi.git diff --git a/src/nepi/resources/linux/tap.py b/src/nepi/resources/linux/tap.py index f2e42a68..ac11eb0a 100644 --- a/src/nepi/resources/linux/tap.py +++ b/src/nepi/resources/linux/tap.py @@ -3,9 +3,8 @@ # 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 as published by -# the Free Software Foundation, either version 3 of the License, or -# (at your option) any later version. +# 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 @@ -18,34 +17,33 @@ # Author: Alina Quereilhac from nepi.execution.attribute import Attribute, Flags, Types -from nepi.execution.resource import clsinit_copy, ResourceState, \ - reschedule_delay +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 socket import time PYTHON_VSYS_VERSION = "1.0" @clsinit_copy class LinuxTap(LinuxApplication): - _rtype = "LinuxTap" + _rtype = "linux::Tap" _help = "Creates a TAP device on a Linux host" - _backend = "linux" + + IFF_TUN = 0x0001 + IFF_TAP = 0x0002 @classmethod def _register_attributes(cls): - ip4 = Attribute("ip4", "IPv4 Address", + ip = Attribute("ip", "IPv4 Address", flags = Flags.Design) mac = Attribute("mac", "MAC Address", flags = Flags.Design) - prefix4 = Attribute("prefix4", "IPv4 network prefix", - type = Types.Integer, + prefix = Attribute("prefix", "IPv4 network prefix", flags = Flags.Design) mtu = Attribute("mtu", "Maximum transmition unit for device", @@ -55,7 +53,7 @@ class LinuxTap(LinuxApplication): "Name of the network interface (e.g. eth0, wlan0, etc)", flags = Flags.NoWrite) - up = Attribute("up", "Link up", + up = Attribute("up", "Link up", default=True, type = Types.Bool) pointopoint = Attribute("pointopoint", "Peer IP address", @@ -84,9 +82,9 @@ class LinuxTap(LinuxApplication): "Bash script to be executed before releasing the resource", flags = Flags.Design) - cls._register_attribute(ip4) + cls._register_attribute(ip) cls._register_attribute(mac) - cls._register_attribute(prefix4) + cls._register_attribute(prefix) cls._register_attribute(mtu) cls._register_attribute(devname) cls._register_attribute(up) @@ -99,34 +97,27 @@ class LinuxTap(LinuxApplication): def __init__(self, ec, guid): super(LinuxTap, self).__init__(ec, guid) - self._home = "tap-%s" % self.guid - self._gre_enabled = False - self._tunnel_mode = False - + 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] - return None + raise RuntimeError("linux::TAP/TUN devices must be connected to a linux::Node") @property def gre_enabled(self): - if not self._gre_enabled: + 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 - @property - def tunnel_mode(self): - if not self._tunnel_mode: - from nepi.resources.linux.tunnel import LinuxTunnel - tunnel = self.get_connected(LinuxTunnel.get_rtype()) - if tunnel: self._tunnel_mode = True - - return self._tunnel_mode - def upload_sources(self): scripts = [] @@ -136,6 +127,16 @@ class LinuxTap(LinuxApplication): 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") @@ -163,7 +164,7 @@ class LinuxTap(LinuxApplication): def upload_start_command(self): # If GRE mode is enabled, TAP creation is delayed until the # tunnel is established - if not self.tunnel_mode: + 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. @@ -175,16 +176,59 @@ class LinuxTap(LinuxApplication): 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(reschedule_delay, self.deploy) + 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() @@ -199,7 +243,7 @@ class LinuxTap(LinuxApplication): else: msg = " Failed to execute command '%s'" % command self.error(msg, out, err) - raise RuntimeError, msg + raise RuntimeError(msg) def do_stop(self): command = self.get('command') or '' @@ -242,102 +286,252 @@ class LinuxTap(LinuxApplication): for rm in rms: if rm.state < ResourceState.STOPPED: - self.ec.schedule(reschedule_delay, self.release) + 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_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(gre_connect_command, - shfile, - text = True, + 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) + (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 + raise RuntimeError(msg) # Wait for pid file to be generated - pid, ppid = self.node.wait_pid(connection_run_home) + 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) + (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 + raise RuntimeError(msg) return True - ## XXX: NOT REALLY WORKING YET! + 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_run_home, + 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(udp_connect_command, - shfile, - text = True, + 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) + (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 + raise RuntimeError(msg) # Wait for pid file to be generated - pid, ppid = self.node.wait_pid(connection_run_home) + 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 pid or not ppid: - (out, err), proc = self.node.check_errors(connection_run_home) + 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 + 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 pid, ppid + return ";".join(command) - def _udp_connect_command(self, remote_endpoint, connection_run_home, + def _udp_connect_command(self, remote_endpoint, + connection_app_home, connection_run_home, cipher, cipher_key, bwlimit, txqueuelen): - # Set the remote endpoint - self.set("pointopoint", remote_endpoint.get("ip4")) + # Set the remote endpoint to the IP of the device + self.set("pointopoint", remote_endpoint.get("ip")) - # Planetlab TAPs always use PI headers - from nepi.resources.planetlab.tap import PlanetlabTap - if self.is_rm_instance(PlanetlabTap.get_rtype()): - self.set("pi", True) - - remote_ip = socket.gethostbyname( - remote_endpoint.node.get("hostname")) + # 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") @@ -352,22 +546,20 @@ class LinuxTap(LinuxApplication): # Use the start command to configure TAP with peer info start_command = self._start_command - command = ["( "] - command.append(start_command) - + command = [""] # Use pl-vid-udp-connect.py to stablish the tunnel between endpoints - command.append(") & (") command.append("sudo -S") command.append("PYTHONPATH=$PYTHONPATH:${SRC}") command.append("python ${SRC}/linux-udp-connect.py") - command.append("-N %s" % self.get("deviceName")) command.append("-t %s" % self.vif_type) - if self.get("pi"): - command.append("-p") - command.append("-l %s " % local_port_file) - command.append("-r %s " % remote_port_file) - command.append("-H %s " % remote_ip) + 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: @@ -377,99 +569,49 @@ class LinuxTap(LinuxApplication): if bwlimit: command.append("-b %s " % bwlimit) - command.append(")") - - command = " ".join(command) - command = self.replace_paths(command) - - return command - - def _gre_connect_command(self, remote_endpoint, connection_run_home): - # Set the remote endpoint - self.set("pointopoint", remote_endpoint.get("ip4")) - self.set("greRemote", socket.gethostbyname( - remote_endpoint.node.get("hostname"))) - - # Generate GRE connect command - command = ["("] - command.append(self._stop_command) - command.append(") ; (") - command.append(self._start_gre_command) - command.append(")") - command = " ".join(command) command = self.replace_paths(command) return command - - @property - def _start_command(self): - command = [] - if not self.gre_enabled: - # Make sure to clean TAP if it existed - stop_command = self._stop_command - - start_command = [] - start_command.append("sudo -S ip tuntap add %s mode %s %s" % ( - self.get("deviceName"), - self.vif_prefix, - "pi" if self.get("pi") else "")) - start_command.append("sudo -S ip link set %s up" % self.get("deviceName")) - start_command.append("sudo -S ip addr add %s/%d dev %s" % ( - self.get("ip4"), - self.get("prefix4"), - self.get("deviceName"), - )) - - start_command = ";".join(start_command) - - command.append("(") - command.append(stop_command) - command.append(") ; (") - command.append(start_command) - command.append(")") - - return " ".join(command) - + @property - def _stop_command(self): - command = [] - command.append("sudo -S ip link set %s down" % self.get("deviceName")) - command.append("sudo -S ip link del %s" % self.get("deviceName")) - - return ";".join(command) + def _dependencies(self): + return "mercurial make gcc" @property - def _start_gre_command(self): - command = [] - command.append("sudo -S modprobe ip_gre") - command.append("sudo -S ip link add %s type gre remote %s local %s ttl 64 csum key %s" % ( - self.get("deviceName"), - self.get("greRemote"), - socket.gethostbyname(self.node.get("hostname")), - self.get("greKey") - )) - command.append("sudo -S ip addr add %s/%d peer %s/%d dev %s" % ( - self.get("ip4"), - self.get("prefix4"), - self.get("pointopoint"), - self.get("prefix4"), - self.get("deviceName"), - )) - command.append("sudo -S ip link set %s up " % self.get("deviceName")) + 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 - return ";".join(command) + def valid_connection(self, guid): + # TODO: Validate! + return True @property def vif_type(self): - return "IFF_TAP" + return self._vif_type + @property + def vif_type_flag(self): + return self._vif_type_flag + @property def vif_prefix(self): - return "tap" + return self._vif_prefix + @property def sock_name(self): - return os.path.join(self.run_home, "tap.sock") + return os.path.join(self.run_home, "%s.sock" % self.vif_prefix) def valid_connection(self, guid): # TODO: Validate!