# # topogen.py # Library of helper functions for NetDEF Topology Tests # # Copyright (c) 2017 by # Network Device Education Foundation, Inc. ("NetDEF") # # Permission to use, copy, modify, and/or distribute this software # for any purpose with or without fee is hereby granted, provided # that the above copyright notice and this permission notice appear # in all copies. # # THE SOFTWARE IS PROVIDED "AS IS" AND NETDEF DISCLAIMS ALL WARRANTIES # WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF # MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL NETDEF BE LIABLE FOR # ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY # DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, # WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS # ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE # OF THIS SOFTWARE. # """ Topogen (Topology Generator) is an abstraction around Topotest and Mininet to help reduce boilerplate code and provide a stable interface to build topology tests on. Basic usage instructions: * Define a Topology class with a build method using mininet.topo.Topo. See examples/test_template.py. * Use Topogen inside the build() method with get_topogen. e.g. get_topogen(self). * Start up your topology with: Topogen(YourTopology) * Initialize the Mininet with your topology with: tgen.start_topology() * Configure your routers/hosts and start them * Run your tests / mininet cli. * After running stop Mininet with: tgen.stop_topology() """ import grp import inspect import json import logging import os import platform import pwd import re import subprocess import sys from collections import OrderedDict if sys.version_info[0] > 2: import configparser else: import ConfigParser as configparser import lib.topolog as topolog from lib.micronet import Commander from lib.micronet_compat import Mininet from lib.topolog import logger from lib.topotest import g_extra_config from lib import topotest CWD = os.path.dirname(os.path.realpath(__file__)) # pylint: disable=C0103 # Global Topogen variable. This is being used to keep the Topogen available on # all test functions without declaring a test local variable. global_tgen = None def get_topogen(topo=None): """ Helper function to retrieve Topogen. Must be called with `topo` when called inside the build() method of Topology class. """ if topo is not None: global_tgen.topo = topo return global_tgen def set_topogen(tgen): "Helper function to set Topogen" # pylint: disable=W0603 global global_tgen global_tgen = tgen def is_string(value): """Return True if value is a string.""" try: return isinstance(value, basestring) # type: ignore except NameError: return isinstance(value, str) def get_exabgp_cmd(commander=None): """Return the command to use for ExaBGP version < 4.""" if commander is None: commander = Commander("topogen") def exacmd_version_ok(exacmd): logger.debug("checking %s for exabgp < version 4", exacmd) _, stdout, _ = commander.cmd_status(exacmd + " -v", warn=False) m = re.search(r"ExaBGP\s*:\s*((\d+)\.(\d+)(?:\.(\d+))?)", stdout) if not m: return False version = m.group(1) if topotest.version_cmp(version, "4") >= 0: logging.debug("found exabgp version >= 4 in %s will keep looking", exacmd) return False logger.info("Using ExaBGP version %s in %s", version, exacmd) return True exacmd = commander.get_exec_path("exabgp") if exacmd and exacmd_version_ok(exacmd): return exacmd py2_path = commander.get_exec_path("python2") if py2_path: exacmd = py2_path + " -m exabgp" if exacmd_version_ok(exacmd): return exacmd py2_path = commander.get_exec_path("python") if py2_path: exacmd = py2_path + " -m exabgp" if exacmd_version_ok(exacmd): return exacmd return None # # Main class: topology builder # # Topogen configuration defaults tgen_defaults = { "verbosity": "info", "frrdir": "/usr/lib/frr", "routertype": "frr", "memleak_path": "", } class Topogen(object): "A topology test builder helper." CONFIG_SECTION = "topogen" def __init__(self, topodef, modname="unnamed"): """ Topogen initialization function, takes the following arguments: * `cls`: OLD:uthe topology class that is child of mininet.topo or a build function. * `topodef`: A dictionary defining the topology, a filename of a json file, or a function that will do the same * `modname`: module name must be a unique name to identify logs later. """ self.config = None self.net = None self.gears = {} self.routern = 1 self.switchn = 1 self.modname = modname self.errorsd = {} self.errors = "" self.peern = 1 self.cfg_gen = 0 self.exabgp_cmd = None self._init_topo(topodef) logger.info("loading topology: {}".format(self.modname)) # @staticmethod # def _mininet_reset(): # "Reset the mininet environment" # # Clean up the mininet environment # os.system("mn -c > /dev/null 2>&1") def __str__(self): return "Topogen()" def _init_topo(self, topodef): """ Initialize the topogily provided by the user. The user topology class must call get_topogen() during build() to get the topogen object. """ # Set the global variable so the test cases can access it anywhere set_topogen(self) # Increase host based limits topotest.fix_host_limits() # Test for MPLS Kernel modules available self.hasmpls = False if not topotest.module_present("mpls-router"): logger.info("MPLS tests will not run (missing mpls-router kernel module)") elif not topotest.module_present("mpls-iptunnel"): logger.info("MPLS tests will not run (missing mpls-iptunnel kernel module)") else: self.hasmpls = True # Load the default topology configurations self._load_config() # Create new log directory self.logdir = topotest.get_logs_path(g_extra_config["rundir"]) subprocess.check_call( "mkdir -p {0} && chmod 1777 {0}".format(self.logdir), shell=True ) try: routertype = self.config.get(self.CONFIG_SECTION, "routertype") # Only allow group, if it exist. gid = grp.getgrnam(routertype)[2] os.chown(self.logdir, 0, gid) os.chmod(self.logdir, 0o775) except KeyError: # Allow anyone, but set the sticky bit to avoid file deletions os.chmod(self.logdir, 0o1777) # Remove old twisty way of creating sub-classed topology object which has it's # build method invoked which calls Topogen methods which then call Topo methods # to create a topology within the Topo object, which is then used by # Mininet(Micronet) to build the actual topology. assert not inspect.isclass(topodef) self.net = Mininet(controller=None) # New direct way: Either a dictionary defines the topology or a build function # is supplied, or a json filename all of which build the topology by calling # Topogen methods which call Mininet(Micronet) methods to create the actual # topology. if not inspect.isclass(topodef): if callable(topodef): topodef(self) self.net.configure_hosts() elif is_string(topodef): # topojson imports topogen in one function too, # switch away from this use here to the topojson # fixutre and remove this case from lib.topojson import build_topo_from_json with open(topodef, "r") as topof: self.json_topo = json.load(topof) build_topo_from_json(self, self.json_topo) self.net.configure_hosts() elif topodef: self.add_topology_from_dict(topodef) def add_topology_from_dict(self, topodef): keylist = ( topodef.keys() if isinstance(topodef, OrderedDict) else sorted(topodef.keys()) ) # --------------------------- # Create all referenced hosts # --------------------------- for oname in keylist: tup = (topodef[oname],) if is_string(topodef[oname]) else topodef[oname] for e in tup: desc = e.split(":") name = desc[0] if name not in self.gears: logging.debug("Adding router: %s", name) self.add_router(name) # ------------------------------ # Create all referenced switches # ------------------------------ for oname in keylist: if oname is not None and oname not in self.gears: logging.debug("Adding switch: %s", oname) self.add_switch(oname) # ---------------- # Create all links # ---------------- for oname in keylist: if oname is None: continue tup = (topodef[oname],) if is_string(topodef[oname]) else topodef[oname] for e in tup: desc = e.split(":") name = desc[0] ifname = desc[1] if len(desc) > 1 else None sifname = desc[2] if len(desc) > 2 else None self.add_link(self.gears[oname], self.gears[name], sifname, ifname) self.net.configure_hosts() def _load_config(self): """ Loads the configuration file `pytest.ini` located at the root dir of topotests. """ self.config = configparser.ConfigParser(tgen_defaults) pytestini_path = os.path.join(CWD, "../pytest.ini") self.config.read(pytestini_path) def add_router(self, name=None, cls=None, **params): """ Adds a new router to the topology. This function has the following options: * `name`: (optional) select the router name * `daemondir`: (optional) custom daemon binary directory * `routertype`: (optional) `frr` Returns a TopoRouter. """ if cls is None: cls = topotest.Router if name is None: name = "r{}".format(self.routern) if name in self.gears: raise KeyError("router already exists") params["frrdir"] = self.config.get(self.CONFIG_SECTION, "frrdir") params["memleak_path"] = self.config.get(self.CONFIG_SECTION, "memleak_path") if "routertype" not in params: params["routertype"] = self.config.get(self.CONFIG_SECTION, "routertype") self.gears[name] = TopoRouter(self, cls, name, **params) self.routern += 1 return self.gears[name] def add_switch(self, name=None): """ Adds a new switch to the topology. This function has the following options: name: (optional) select the switch name Returns the switch name and number. """ if name is None: name = "s{}".format(self.switchn) if name in self.gears: raise KeyError("switch already exists") self.gears[name] = TopoSwitch(self, name) self.switchn += 1 return self.gears[name] def add_exabgp_peer(self, name, ip, defaultRoute): """ Adds a new ExaBGP peer to the topology. This function has the following parameters: * `ip`: the peer address (e.g. '1.2.3.4/24') * `defaultRoute`: the peer default route (e.g. 'via 1.2.3.1') """ if name is None: name = "peer{}".format(self.peern) if name in self.gears: raise KeyError("exabgp peer already exists") self.gears[name] = TopoExaBGP(self, name, ip=ip, defaultRoute=defaultRoute) self.peern += 1 return self.gears[name] def add_host(self, name, ip, defaultRoute): """ Adds a new host to the topology. This function has the following parameters: * `ip`: the peer address (e.g. '1.2.3.4/24') * `defaultRoute`: the peer default route (e.g. 'via 1.2.3.1') """ if name is None: name = "host{}".format(self.peern) if name in self.gears: raise KeyError("host already exists") self.gears[name] = TopoHost(self, name, ip=ip, defaultRoute=defaultRoute) self.peern += 1 return self.gears[name] def add_link(self, node1, node2, ifname1=None, ifname2=None): """ Creates a connection between node1 and node2. The nodes can be the following: * TopoGear * TopoRouter * TopoSwitch """ if not isinstance(node1, TopoGear): raise ValueError("invalid node1 type") if not isinstance(node2, TopoGear): raise ValueError("invalid node2 type") if ifname1 is None: ifname1 = node1.new_link() if ifname2 is None: ifname2 = node2.new_link() node1.register_link(ifname1, node2, ifname2) node2.register_link(ifname2, node1, ifname1) self.net.add_link(node1.name, node2.name, ifname1, ifname2) def get_gears(self, geartype): """ Returns a dictionary of all gears of type `geartype`. Normal usage: * Dictionary iteration: ```py tgen = get_topogen() router_dict = tgen.get_gears(TopoRouter) for router_name, router in router_dict.items(): # Do stuff ``` * List iteration: ```py tgen = get_topogen() peer_list = tgen.get_gears(TopoExaBGP).values() for peer in peer_list: # Do stuff ``` """ return dict( (name, gear) for name, gear in self.gears.items() if isinstance(gear, geartype) ) def routers(self): """ Returns the router dictionary (key is the router name and value is the router object itself). """ return self.get_gears(TopoRouter) def exabgp_peers(self): """ Returns the exabgp peer dictionary (key is the peer name and value is the peer object itself). """ return self.get_gears(TopoExaBGP) def start_topology(self): """Starts the topology class.""" logger.info("starting topology: {}".format(self.modname)) self.net.start() def start_router(self, router=None): """ Call the router startRouter method. If no router is specified it is called for all registered routers. """ if router is None: # pylint: disable=r1704 # XXX should be hosts? for _, router in self.routers().items(): router.start() else: if isinstance(router, str): router = self.gears[router] router.start() def stop_topology(self): """ Stops the network topology. This function will call the stop() function of all gears before calling the mininet stop function, so they can have their oportunity to do a graceful shutdown. stop() is called twice. The first is a simple kill with no sleep, the second will sleep if not killed and try with a different signal. """ logger.info("stopping topology: {}".format(self.modname)) errors = "" for gear in self.gears.values(): errors += gear.stop() if len(errors) > 0: logger.error( "Errors found post shutdown - details follow: {}".format(errors) ) self.net.stop() def get_exabgp_cmd(self): if not self.exabgp_cmd: self.exabgp_cmd = get_exabgp_cmd(self.net) return self.exabgp_cmd def cli(self): """ Interrupt the test and call the command line interface for manual inspection. Should be only used on non production code. """ self.net.cli() mininet_cli = cli def is_memleak_enabled(self): "Returns `True` if memory leak report is enable, otherwise `False`." # On router failure we can't run the memory leak test if self.routers_have_failure(): return False memleak_file = os.environ.get("TOPOTESTS_CHECK_MEMLEAK") or self.config.get( self.CONFIG_SECTION, "memleak_path" ) if memleak_file == "" or memleak_file == None: return False return True def report_memory_leaks(self, testname=None): "Run memory leak test and reports." if not self.is_memleak_enabled(): return # If no name was specified, use the test module name if testname is None: testname = self.modname router_list = self.routers().values() for router in router_list: router.report_memory_leaks(self.modname) def set_error(self, message, code=None): "Sets an error message and signal other tests to skip." logger.info(message) # If no code is defined use a sequential number if code is None: code = len(self.errorsd) self.errorsd[code] = message self.errors += "\n{}: {}".format(code, message) def has_errors(self): "Returns whether errors exist or not." return len(self.errorsd) > 0 def routers_have_failure(self): "Runs an assertion to make sure that all routers are running." if self.has_errors(): return True errors = "" router_list = self.routers().values() for router in router_list: result = router.check_router_running() if result != "": errors += result + "\n" if errors != "": self.set_error(errors, "router_error") assert False, errors return True return False # # Topology gears (equipment) # class TopoGear(object): "Abstract class for type checking" def __init__(self, tgen, name, **params): self.tgen = tgen self.name = name self.params = params self.links = {} self.linkn = 0 # Would be nice for this to point at the gears log directory rather than the # test's. self.logdir = tgen.logdir self.gearlogdir = None def __str__(self): links = "" for myif, dest in self.links.items(): _, destif = dest if links != "": links += "," links += '"{}"<->"{}"'.format(myif, destif) return 'TopoGear'.format(self.name, links) @property def net(self): return self.tgen.net[self.name] def start(self): "Basic start function that just reports equipment start" logger.info('starting "{}"'.format(self.name)) def stop(self, wait=True, assertOnError=True): "Basic stop function that just reports equipment stop" logger.info('"{}" base stop called'.format(self.name)) return "" def cmd(self, command, **kwargs): """ Runs the provided command string in the router and returns a string with the response. """ return self.net.cmd_legacy(command, **kwargs) def cmd_raises(self, command, **kwargs): """ Runs the provided command string in the router and returns a string with the response. Raise an exception on any error. """ return self.net.cmd_raises(command, **kwargs) run = cmd def popen(self, *params, **kwargs): """ Creates a pipe with the given command. Same args as python Popen. If `command` is a string then will be invoked with shell, otherwise `command` is a list and will be invoked w/o shell. Returns a popen object. """ return self.net.popen(*params, **kwargs) def add_link(self, node, myif=None, nodeif=None): """ Creates a link (connection) between myself and the specified node. Interfaces name can be speficied with: myif: the interface name that will be created in this node nodeif: the target interface name that will be created on the remote node. """ self.tgen.add_link(self, node, myif, nodeif) def link_enable(self, myif, enabled=True, netns=None): """ Set this node interface administrative state. myif: this node interface name enabled: whether we should enable or disable the interface """ if myif not in self.links.keys(): raise KeyError("interface doesn't exists") if enabled is True: operation = "up" else: operation = "down" logger.info( 'setting node "{}" link "{}" to state "{}"'.format( self.name, myif, operation ) ) extract = "" if netns is not None: extract = "ip netns exec {} ".format(netns) return self.run("{}ip link set dev {} {}".format(extract, myif, operation)) def peer_link_enable(self, myif, enabled=True, netns=None): """ Set the peer interface administrative state. myif: this node interface name enabled: whether we should enable or disable the interface NOTE: this is used to simulate a link down on this node, since when the peer disables their interface our interface status changes to no link. """ if myif not in self.links.keys(): raise KeyError("interface doesn't exists") node, nodeif = self.links[myif] node.link_enable(nodeif, enabled, netns) def new_link(self): """ Generates a new unique link name. NOTE: This function should only be called by Topogen. """ ifname = "{}-eth{}".format(self.name, self.linkn) self.linkn += 1 return ifname def register_link(self, myif, node, nodeif): """ Register link between this node interface and outside node. NOTE: This function should only be called by Topogen. """ if myif in self.links.keys(): raise KeyError("interface already exists") self.links[myif] = (node, nodeif) def _setup_tmpdir(self): topotest.setup_node_tmpdir(self.logdir, self.name) self.gearlogdir = "{}/{}".format(self.logdir, self.name) return "{}/{}.log".format(self.logdir, self.name) class TopoRouter(TopoGear): """ Router abstraction. """ # The default required directories by FRR PRIVATE_DIRS = [ "/etc/frr", "/etc/snmp", "/var/run/frr", "/var/log", ] # Router Daemon enumeration definition. RD_FRR = 0 # not a daemon, but use to setup unified configs RD_ZEBRA = 1 RD_RIP = 2 RD_RIPNG = 3 RD_OSPF = 4 RD_OSPF6 = 5 RD_ISIS = 6 RD_BGP = 7 RD_LDP = 8 RD_PIM = 9 RD_EIGRP = 10 RD_NHRP = 11 RD_STATIC = 12 RD_BFD = 13 RD_SHARP = 14 RD_BABEL = 15 RD_PBRD = 16 RD_PATH = 17 RD_SNMP = 18 RD_PIM6 = 19 RD = { RD_FRR: "frr", RD_ZEBRA: "zebra", RD_RIP: "ripd", RD_RIPNG: "ripngd", RD_OSPF: "ospfd", RD_OSPF6: "ospf6d", RD_ISIS: "isisd", RD_BGP: "bgpd", RD_PIM: "pimd", RD_PIM6: "pim6d", RD_LDP: "ldpd", RD_EIGRP: "eigrpd", RD_NHRP: "nhrpd", RD_STATIC: "staticd", RD_BFD: "bfdd", RD_SHARP: "sharpd", RD_BABEL: "babeld", RD_PBRD: "pbrd", RD_PATH: "pathd", RD_SNMP: "snmpd", } def __init__(self, tgen, cls, name, **params): """ The constructor has the following parameters: * tgen: Topogen object * cls: router class that will be used to instantiate * name: router name * daemondir: daemon binary directory * routertype: 'frr' """ super(TopoRouter, self).__init__(tgen, name, **params) self.routertype = params.get("routertype", "frr") if "privateDirs" not in params: params["privateDirs"] = self.PRIVATE_DIRS # Propagate the router log directory logfile = self._setup_tmpdir() params["logdir"] = self.logdir self.logger = topolog.get_logger(name, log_level="debug", target=logfile) params["logger"] = self.logger tgen.net.add_host(self.name, cls=cls, **params) topotest.fix_netns_limits(tgen.net[name]) # Mount gear log directory on a common path self.net.bind_mount(self.gearlogdir, "/tmp/gearlogdir") # Ensure pid file with open(os.path.join(self.logdir, self.name + ".pid"), "w") as f: f.write(str(self.net.pid) + "\n") def __str__(self): gear = super(TopoRouter, self).__str__() gear += " TopoRouter<>" return gear def check_capability(self, daemon, param): """ Checks a capability daemon against an argument option Return True if capability available. False otherwise """ daemonstr = self.RD.get(daemon) self.logger.info('check capability {} for "{}"'.format(param, daemonstr)) return self.net.checkCapability(daemonstr, param) def load_frr_config(self, source, daemons=None): """ Loads the unified configuration file source Start the daemons in the list If daemons is None, try to infer daemons from the config file """ self.load_config(self.RD_FRR, source) if not daemons: # Always add zebra self.load_config(self.RD_ZEBRA) for daemon in self.RD: # This will not work for all daemons daemonstr = self.RD.get(daemon).rstrip("d") if daemonstr == "pim": grep_cmd = "grep 'ip {}' {}".format(daemonstr, source) else: grep_cmd = "grep 'router {}' {}".format(daemonstr, source) result = self.run(grep_cmd).strip() if result: self.load_config(daemon) else: for daemon in daemons: self.load_config(daemon) def load_config(self, daemon, source=None, param=None): """Loads daemon configuration from the specified source Possible daemon values are: TopoRouter.RD_ZEBRA, TopoRouter.RD_RIP, TopoRouter.RD_RIPNG, TopoRouter.RD_OSPF, TopoRouter.RD_OSPF6, TopoRouter.RD_ISIS, TopoRouter.RD_BGP, TopoRouter.RD_LDP, TopoRouter.RD_PIM, TopoRouter.RD_PIM6, TopoRouter.RD_PBR, TopoRouter.RD_SNMP. Possible `source` values are `None` for an empty config file, a path name which is used directly, or a file name with no path components which is first looked for directly and then looked for under a sub-directory named after router. This API unfortunately allows for source to not exist for any and all routers. """ daemonstr = self.RD.get(daemon) self.logger.info('loading "{}" configuration: {}'.format(daemonstr, source)) self.net.loadConf(daemonstr, source, param) def check_router_running(self): """ Run a series of checks and returns a status string. """ self.logger.info("checking if daemons are running") return self.net.checkRouterRunning() def start(self): """ Start router: * Load modules * Clean up files * Configure interfaces * Start daemons (e.g. FRR) * Configure daemon logging files """ nrouter = self.net result = nrouter.startRouter(self.tgen) # Enable command logging # Enable all daemon command logging, logging files # and set them to the start dir. for daemon, enabled in nrouter.daemons.items(): if enabled and daemon != "snmpd": self.vtysh_cmd( "\n".join( [ "clear log cmdline-targets", "conf t", "log file {}.log debug".format(daemon), "log commands", "log timestamp precision 3", ] ), daemon=daemon, ) if result != "": self.tgen.set_error(result) elif nrouter.daemons["ldpd"] == 1 or nrouter.daemons["pathd"] == 1: # Enable MPLS processing on all interfaces. for interface in self.links: topotest.sysctl_assure( nrouter, "net.mpls.conf.{}.input".format(interface), 1 ) return result def stop(self): """ Stop router cleanly: * Signal daemons twice, once with SIGTERM, then with SIGKILL. """ self.logger.debug("stopping (no assert)") return self.net.stopRouter(False) def startDaemons(self, daemons): """ Start Daemons: to start specific daemon(user defined daemon only) * Start daemons (e.g. FRR) * Configure daemon logging files """ self.logger.debug("starting") nrouter = self.net result = nrouter.startRouterDaemons(daemons) if daemons is None: daemons = nrouter.daemons.keys() # Enable all daemon command logging, logging files # and set them to the start dir. for daemon in daemons: enabled = nrouter.daemons[daemon] if enabled and daemon != "snmpd": self.vtysh_cmd( "\n".join( [ "clear log cmdline-targets", "conf t", "log file {}.log debug".format(daemon), "log commands", "log timestamp precision 3", ] ), daemon=daemon, ) if result != "": self.tgen.set_error(result) return result def killDaemons(self, daemons, wait=True, assertOnError=True): """ Kill specific daemon(user defined daemon only) forcefully using SIGKILL """ self.logger.debug("Killing daemons using SIGKILL..") return self.net.killRouterDaemons(daemons, wait, assertOnError) def vtysh_cmd(self, command, isjson=False, daemon=None): """ Runs the provided command string in the vty shell and returns a string with the response. This function also accepts multiple commands, but this mode does not return output for each command. See vtysh_multicmd() for more details. """ # Detect multi line commands if command.find("\n") != -1: return self.vtysh_multicmd(command, daemon=daemon) dparam = "" if daemon is not None: dparam += "-d {}".format(daemon) vtysh_command = 'vtysh {} -c "{}" 2>/dev/null'.format(dparam, command) self.logger.info('vtysh command => "{}"'.format(command)) output = self.run(vtysh_command) dbgout = output.strip() if dbgout: if "\n" in dbgout: dbgout = dbgout.replace("\n", "\n\t") self.logger.info("vtysh result:\n\t{}".format(dbgout)) else: self.logger.info('vtysh result: "{}"'.format(dbgout)) if isjson is False: return output try: return json.loads(output) except ValueError as error: logger.warning( "vtysh_cmd: %s: failed to convert json output: %s: %s", self.name, str(output), str(error), ) return {} def vtysh_multicmd(self, commands, pretty_output=True, daemon=None): """ Runs the provided commands in the vty shell and return the result of execution. pretty_output: defines how the return value will be presented. When True it will show the command as they were executed in the vty shell, otherwise it will only show lines that failed. """ # Prepare the temporary file that will hold the commands fname = topotest.get_file(commands) dparam = "" if daemon is not None: dparam += "-d {}".format(daemon) # Run the commands and delete the temporary file if pretty_output: vtysh_command = "vtysh {} < {}".format(dparam, fname) else: vtysh_command = "vtysh {} -f {}".format(dparam, fname) dbgcmds = commands if is_string(commands) else "\n".join(commands) dbgcmds = "\t" + dbgcmds.replace("\n", "\n\t") self.logger.info("vtysh command => FILE:\n{}".format(dbgcmds)) res = self.run(vtysh_command) os.unlink(fname) dbgres = res.strip() if dbgres: if "\n" in dbgres: dbgres = dbgres.replace("\n", "\n\t") self.logger.info("vtysh result:\n\t{}".format(dbgres)) else: self.logger.info('vtysh result: "{}"'.format(dbgres)) return res def report_memory_leaks(self, testname): """ Runs the router memory leak check test. Has the following parameter: testname: the test file name for identification NOTE: to run this you must have the environment variable TOPOTESTS_CHECK_MEMLEAK set or memleak_path configured in `pytest.ini`. """ memleak_file = ( os.environ.get("TOPOTESTS_CHECK_MEMLEAK") or self.params["memleak_path"] ) if memleak_file == "" or memleak_file == None: return self.stop() self.logger.info("running memory leak report") self.net.report_memory_leaks(memleak_file, testname) def version_info(self): "Get equipment information from 'show version'." output = self.vtysh_cmd("show version").split("\n")[0] columns = topotest.normalize_text(output).split(" ") try: return { "type": columns[0], "version": columns[1], } except IndexError: return { "type": None, "version": None, } def has_version(self, cmpop, version): """ Compares router version using operation `cmpop` with `version`. Valid `cmpop` values: * `>=`: has the same version or greater * '>': has greater version * '=': has the same version * '<': has a lesser version * '<=': has the same version or lesser Usage example: router.has_version('>', '1.0') """ return self.net.checkRouterVersion(cmpop, version) def has_type(self, rtype): """ Compares router type with `rtype`. Returns `True` if the type matches, otherwise `false`. """ curtype = self.version_info()["type"] return rtype == curtype def has_mpls(self): return self.net.hasmpls class TopoSwitch(TopoGear): """ Switch abstraction. Has the following properties: * cls: switch class that will be used to instantiate * name: switch name """ # pylint: disable=too-few-public-methods def __init__(self, tgen, name, **params): super(TopoSwitch, self).__init__(tgen, name, **params) tgen.net.add_switch(name) def __str__(self): gear = super(TopoSwitch, self).__str__() gear += " TopoSwitch<>" return gear class TopoHost(TopoGear): "Host abstraction." # pylint: disable=too-few-public-methods def __init__(self, tgen, name, **params): """ Mininet has the following known `params` for hosts: * `ip`: the IP address (string) for the host interface * `defaultRoute`: the default route that will be installed (e.g. 'via 10.0.0.1') * `privateDirs`: directories that will be mounted on a different domain (e.g. '/etc/important_dir'). """ super(TopoHost, self).__init__(tgen, name, **params) # Propagate the router log directory logfile = self._setup_tmpdir() params["logdir"] = self.logdir # Odd to have 2 logfiles for each host self.logger = topolog.get_logger(name, log_level="debug", target=logfile) params["logger"] = self.logger tgen.net.add_host(name, **params) topotest.fix_netns_limits(tgen.net[name]) # Mount gear log directory on a common path self.net.bind_mount(self.gearlogdir, "/tmp/gearlogdir") def __str__(self): gear = super(TopoHost, self).__str__() gear += ' TopoHost'.format( self.params["ip"], self.params["defaultRoute"], str(self.params["privateDirs"]), ) return gear class TopoExaBGP(TopoHost): "ExaBGP peer abstraction." # pylint: disable=too-few-public-methods PRIVATE_DIRS = [ "/etc/exabgp", "/var/run/exabgp", "/var/log", ] def __init__(self, tgen, name, **params): """ ExaBGP usually uses the following parameters: * `ip`: the IP address (string) for the host interface * `defaultRoute`: the default route that will be installed (e.g. 'via 10.0.0.1') Note: the different between a host and a ExaBGP peer is that this class has a privateDirs already defined and contains functions to handle ExaBGP things. """ params["privateDirs"] = self.PRIVATE_DIRS super(TopoExaBGP, self).__init__(tgen, name, **params) def __str__(self): gear = super(TopoExaBGP, self).__str__() gear += " TopoExaBGP<>".format() return gear def start(self, peer_dir, env_file=None): """ Start running ExaBGP daemon: * Copy all peer* folder contents into /etc/exabgp * Copy exabgp env file if specified * Make all python files runnable * Run ExaBGP with env file `env_file` and configuration peer*/exabgp.cfg """ exacmd = self.tgen.get_exabgp_cmd() assert exacmd, "Can't find a usabel ExaBGP (must be < version 4)" self.run("mkdir -p /etc/exabgp") self.run("chmod 755 /etc/exabgp") self.run("cp {}/exa-* /etc/exabgp/".format(CWD)) self.run("cp {}/* /etc/exabgp/".format(peer_dir)) if env_file is not None: self.run("cp {} /etc/exabgp/exabgp.env".format(env_file)) self.run("chmod 644 /etc/exabgp/*") self.run("chmod a+x /etc/exabgp/*.py") self.run("chown -R exabgp:exabgp /etc/exabgp") output = self.run(exacmd + " -e /etc/exabgp/exabgp.env /etc/exabgp/exabgp.cfg") if output == None or len(output) == 0: output = "" logger.info("{} exabgp started, output={}".format(self.name, output)) def stop(self, wait=True, assertOnError=True): "Stop ExaBGP peer and kill the daemon" self.run("kill `cat /var/run/exabgp/exabgp.pid`") return "" # # Diagnostic function # # Disable linter branch warning. It is expected to have these here. # pylint: disable=R0912 def diagnose_env_linux(rundir): """ Run diagnostics in the running environment. Returns `True` when everything is ok, otherwise `False`. """ ret = True # Load configuration config = configparser.ConfigParser(defaults=tgen_defaults) pytestini_path = os.path.join(CWD, "../pytest.ini") config.read(pytestini_path) # Test log path exists before installing handler. os.system("mkdir -p " + rundir) # Log diagnostics to file so it can be examined later. fhandler = logging.FileHandler(filename="{}/diagnostics.txt".format(rundir)) fhandler.setLevel(logging.DEBUG) fhandler.setFormatter(logging.Formatter(fmt=topolog.FORMAT)) logger.addHandler(fhandler) logger.info("Running environment diagnostics") # Assert that we are running as root if os.getuid() != 0: logger.error("you must run topotest as root") ret = False # Assert that we have mininet # if os.system("which mn >/dev/null 2>/dev/null") != 0: # logger.error("could not find mininet binary (mininet is not installed)") # ret = False # Assert that we have iproute installed if os.system("which ip >/dev/null 2>/dev/null") != 0: logger.error("could not find ip binary (iproute is not installed)") ret = False # Assert that we have gdb installed if os.system("which gdb >/dev/null 2>/dev/null") != 0: logger.error("could not find gdb binary (gdb is not installed)") ret = False # Assert that FRR utilities exist frrdir = config.get("topogen", "frrdir") if not os.path.isdir(frrdir): logger.error("could not find {} directory".format(frrdir)) ret = False else: try: pwd.getpwnam("frr")[2] except KeyError: logger.warning('could not find "frr" user') try: grp.getgrnam("frr")[2] except KeyError: logger.warning('could not find "frr" group') try: if "frr" not in grp.getgrnam("frrvty").gr_mem: logger.error( '"frr" user and group exist, but user is not under "frrvty"' ) except KeyError: logger.warning('could not find "frrvty" group') for fname in [ "zebra", "ospfd", "ospf6d", "bgpd", "ripd", "ripngd", "isisd", "pimd", "pim6d", "ldpd", "pbrd", ]: path = os.path.join(frrdir, fname) if not os.path.isfile(path): # LDPd is an exception if fname == "ldpd": logger.info( "could not find {} in {}".format(fname, frrdir) + "(LDPd tests will not run)" ) continue logger.error("could not find {} in {}".format(fname, frrdir)) ret = False else: if fname != "zebra": continue os.system("{} -v 2>&1 >{}/frr_zebra.txt".format(path, rundir)) # Test MPLS availability krel = platform.release() if topotest.version_cmp(krel, "4.5") < 0: logger.info( 'LDPd tests will not run (have kernel "{}", but it requires 4.5)'.format( krel ) ) # Test for MPLS Kernel modules available if not topotest.module_present("mpls-router", load=False) != 0: logger.info("LDPd tests will not run (missing mpls-router kernel module)") if not topotest.module_present("mpls-iptunnel", load=False) != 0: logger.info("LDPd tests will not run (missing mpls-iptunnel kernel module)") if not get_exabgp_cmd(): logger.warning("Failed to find exabgp < 4") logger.removeHandler(fhandler) fhandler.close() return ret def diagnose_env_freebsd(): return True def diagnose_env(rundir): if sys.platform.startswith("linux"): return diagnose_env_linux(rundir) elif sys.platform.startswith("freebsd"): return diagnose_env_freebsd() return False