Python ExperimentController.setの例、nepi.execution.ec.ExperimentController.set Pythonの例

コード例 #1

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ファイルを表示

    def test_ccnpeek(self):
        ec = ExperimentController(exp_id="test-linux-ccnpeek")

        node = ec.register_resource("linux::Node")
        ec.set(node, "hostname", self.fedora_host)
        ec.set(node, "username", self.fedora_user)
        ec.set(node, "identity", self.fedora_identity)
        #ec.set(node, "cleanProcesses", True)
        #ec.set(node, "cleanExperiment", True)

        ccnd = ec.register_resource("linux::CCND")
        ec.register_connection(ccnd, node)

        peek = ec.register_resource("linux::CCNPeek")
        ec.set(peek, "contentName", "ccnx:/chunk0")
        ec.register_connection(peek, ccnd)

        poke = ec.register_resource("linux::CCNPoke")
        ec.set(poke, "contentName", "ccnx:/chunk0")
        ec.set(poke, "content", "DATA")
        ec.register_connection(poke, ccnd)

        ec.register_condition(peek, ResourceAction.START, poke,
                              ResourceState.STARTED)

        ec.deploy()

        ec.wait_finished(peek)

        stdout = ec.trace(peek, "stdout")
        print stdout
        expected = "DATA"
        self.assertTrue(stdout.find(expected) > -1)

        ec.shutdown()

コード例 #2

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ファイルを表示

ファイル: ccnpeek.py プロジェクト: phiros/nepi

    def test_ccnpeek(self):
        ec = ExperimentController(exp_id = "test-linux-ccnpeek")
        
        node = ec.register_resource("linux::Node")
        ec.set(node, "hostname", self.fedora_host)
        ec.set(node, "username", self.fedora_user)
        ec.set(node, "identity", self.fedora_identity)
        #ec.set(node, "cleanProcesses", True)
        #ec.set(node, "cleanExperiment", True)

        ccnd = ec.register_resource("linux::CCND")
        ec.register_connection(ccnd, node)

        peek = ec.register_resource("linux::CCNPeek")
        ec.set(peek, "contentName", "ccnx:/chunk0")
        ec.register_connection(peek, ccnd)

        poke = ec.register_resource("linux::CCNPoke")
        ec.set(poke, "contentName", "ccnx:/chunk0")
        ec.set(poke, "content", "DATA")
        ec.register_connection(poke, ccnd)

        ec.register_condition(peek, ResourceAction.START, poke,
            ResourceState.STARTED)
 
        ec.deploy()

        ec.wait_finished(peek)

        stdout = ec.trace(peek, "stdout")
        print stdout
        expected = "DATA"
        self.assertTrue(stdout.find(expected) > -1)

        ec.shutdown()

コード例 #3

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ファイルを表示

    def t_deploy(self, host, user):
        from nepi.execution.resource import ResourceFactory
        
        ResourceFactory.register_type(LinuxNode)
        ResourceFactory.register_type(LinuxInterface)
        ResourceFactory.register_type(LinuxChannel)

        ec = ExperimentController()
        
        node = ec.register_resource("linux::Node")
        ec.set(node, "hostname", host)
        ec.set(node, "username", user)

        iface = ec.register_resource("linux::Interface")
        chan = ec.register_resource("linux::Channel")

        ec.register_connection(iface, node)
        ec.register_connection(iface, chan)

        ec.deploy()

        while not all([ ec.state(guid) == ResourceState.STARTED \
                for guid in [node, iface]]):
            time.sleep(0.5)

        self.assertTrue(ec.state(node) == ResourceState.STARTED)
        self.assertTrue(ec.state(iface) == ResourceState.STARTED)
        self.assertTrue(ec.get(iface, "deviceName") == "eth0")

        ec.shutdown()

コード例 #4

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ファイルを表示

ファイル: dce.py プロジェクト: phiros/nepi

def make_experiment(node_count, app_count, opdelay, delay):

    ResourceManager._reschedule_delay = "%0.1fs" % delay

    # Create Experiment Controller:
    ec = ExperimentController("dce_bench")

    # Add the physical host in which to run the simulation
    lnode = add_linux_node(ec)

    # Add a simulation resource
    simu = ec.register_resource("linux::ns3::Simulation")
    ec.set(simu, "verbose", True)
    ec.register_connection(simu, lnode)

    # Add simulated nodes and applications
    nodes = list()
    apps = list()
    devs = list()
    ips = dict()

    prefix = "16"
    base_addr = "10.0.0.0/%s" % prefix
    net = ipaddr.IPv4Network(base_addr)
    host_itr = net.iterhosts()

    for i in xrange(node_count):
        node = add_node(ec, simu)
        nodes.append(node)
        
        ip = host_itr.next()
        ip = ip.exploded
        dev = add_device(ec, node, ip, prefix)
        devs.append(dev)

        ips[node] = ip

    for nid in nodes:
        for j in xrange(app_count):
            # If there is only one node, ping itself. If there are more
            # choose one target randomly.
            remote_ip = ips[nid]
            
            if len(nodes) > 1:
                choices = ips.values()
                choices.remove(remote_ip)
                remote_ip = random.choice(choices)

            app = add_ping_app(ec, node, remote_ip)
            apps.append(app)

    chan = ec.register_resource("ns3::CsmaChannel")
    ec.set(chan, "Delay", "0s")

    for dev in devs:
        ec.register_connection(chan, dev)

    return (ec, apps, nodes + apps + devs)

コード例 #5

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ファイルを表示

ファイル: ns3.py プロジェクト: phiros/nepi

def make_experiment(node_count, app_count, opdelay, delay):

    ResourceManager._reschedule_delay = "%0.1fs" % delay

    # Create Experiment Controller:
    ec = ExperimentController("ns3_bench")

    # Add the physical host in which to run the simulation
    lnode = add_linux_node(ec)

    # Add a simulation resource
    simu = ec.register_resource("linux::ns3::Simulation")
    ec.set(simu, "verbose", True)
    ec.register_connection(simu, lnode)

    # Add simulated nodes and applications
    nodes = list()
    apps = list()
    devs = list()
    ips = dict()

    prefix = "16"
    base_addr = "10.0.0.0/%s" % prefix
    net = ipaddr.IPv4Network(base_addr)
    host_itr = net.iterhosts()

    for i in xrange(node_count):
        node = add_node(ec, simu)
        nodes.append(node)
        
        ip = host_itr.next()
        ip = ip.exploded
        dev = add_device(ec, node, ip, prefix)
        devs.append(dev)

        ips[node] = ip

    for nid in nodes:
        for j in xrange(app_count):
            # If there is only one node, ping itself. If there are more
            # choose one target randomly.
            remote_ip = ips[nid]
            
            if len(nodes) > 1:
                choices = ips.values()
                choices.remove(remote_ip)
                remote_ip = random.choice(choices)

            app = add_ping_app(ec, node, remote_ip)
            apps.append(app)

    chan = ec.register_resource("ns3::CsmaChannel")
    ec.set(chan, "Delay", "0s")

    for dev in devs:
        ec.register_connection(chan, dev)

    return (ec, apps, nodes + apps + devs)

コード例 #6

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ファイルを表示

ファイル: multirun.py プロジェクト: phiros/nepi

    def t_simple_multirun(self, host, user, depends):

        dirpath = tempfile.mkdtemp()

        ec = ExperimentController(exp_id="test-condition-multirun",
                                  local_dir=dirpath)

        node = ec.register_resource("linux::Node")
        ec.set(node, "hostname", host)
        ec.set(node, "username", user)
        ec.set(node, "cleanExperiment", True)
        ec.set(node, "cleanProcesses", True)

        ping = ec.register_resource("linux::Application")
        ec.set(ping, "command", "ping -c10 nepi.inria.fr")
        ec.register_connection(ping, node)

        collector = ec.register_resource("Collector")
        ec.set(collector, "traceName", "stdout")
        ec.register_connection(ping, collector)

        def compute_metric_callback(ping, ec, run):
            stdout = ec.trace(ping, "stdout")

            m = _ping_re.match(stdout)
            if not m:
                return None

            return float(m.groupdict()["min"])

        metric_callback = functools.partial(compute_metric_callback, ping)

        rnr = ExperimentRunner()
        runs = rnr.run(ec,
                       min_runs=5,
                       compute_metric_callback=metric_callback,
                       wait_guids=[ping],
                       wait_time=0)

        self.assertTrue(runs >= 5)

        dircount = 0

        for d in os.listdir(ec.exp_dir):
            path = os.path.join(ec.exp_dir, d)
            if os.path.isdir(path):
                dircount += 1
                logs = glob.glob(os.path.join(path, "*.stdout"))
                self.assertEquals(len(logs), 1)

        self.assertEquals(runs, dircount)

        shutil.rmtree(dirpath)

コード例 #7

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ファイルを表示

ファイル: multirun.py プロジェクト: phiros/nepi

    def t_simple_multirun(self, host, user, depends):

        dirpath = tempfile.mkdtemp()

        ec = ExperimentController(exp_id = "test-condition-multirun", 
                local_dir = dirpath)
        
        node = ec.register_resource("linux::Node")
        ec.set(node, "hostname", host)
        ec.set(node, "username", user)
        ec.set(node, "cleanExperiment", True)
        ec.set(node, "cleanProcesses", True)

        ping = ec.register_resource("linux::Application")
        ec.set(ping, "command", "ping -c10 nepi.inria.fr")
        ec.register_connection(ping, node)

        collector = ec.register_resource("Collector")
        ec.set(collector, "traceName", "stdout")
        ec.register_connection(ping, collector)

        def compute_metric_callback(ping, ec, run):
            stdout = ec.trace(ping, "stdout")

            m = _ping_re.match(stdout)
            if not m:
                return None
            
            return float(m.groupdict()["min"])

        metric_callback = functools.partial(compute_metric_callback, ping)

        rnr = ExperimentRunner()
        runs = rnr.run(ec, min_runs = 5, 
                compute_metric_callback = metric_callback,
                wait_guids = [ping],
                wait_time = 0)

        self.assertTrue(runs >= 5)

        dircount = 0

        for d in os.listdir(ec.exp_dir):
            path = os.path.join(ec.exp_dir, d)
            if os.path.isdir(path):
                dircount += 1
                logs = glob.glob(os.path.join(path, "*.stdout"))
                self.assertEquals(len(logs), 1)
        
        self.assertEquals(runs, dircount)

        shutil.rmtree(dirpath)

コード例 #8

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ファイルを表示

ファイル: ccncat.py プロジェクト: phiros/nepi

    def test_ccnpeek(self):
        ec = ExperimentController(exp_id="test-linux-ccncat")

        node = ec.register_resource("linux::Node")
        ec.set(node, "hostname", self.fedora_host)
        ec.set(node, "username", self.fedora_user)
        ec.set(node, "identity", self.fedora_identity)
        #ec.set(node, "cleanProcesses", True)
        #ec.set(node, "cleanExperiment", True)

        ccnd = ec.register_resource("linux::CCND")
        ec.register_connection(ccnd, node)

        # REPO file is in test/resources/linux/ns3/ccn/repoFile1
        repofile = os.path.join(os.path.dirname(os.path.realpath(__file__)),
                                "..", "ns3", "ccn", "repoFile1")

        ## Register a repository in node 1
        ccnr = ec.register_resource("linux::CCNR")
        ec.set(ccnr, "repoFile1", repofile)
        ec.register_connection(ccnr, ccnd)

        ccncat = ec.register_resource("linux::CCNCat")
        ec.set(ccncat, "contentName", "ccnx:/test/bunny.ts")
        ec.register_connection(ccncat, ccnd)

        ec.deploy()

        ec.wait_finished(ccncat)

        expected = 2873956
        stdout = ec.trace(ccncat, "stdout")
        self.assertTrue(len(stdout) == expected, stdout)

        ec.shutdown()

コード例 #9

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ファイルを表示

    def t_stdout(self, host, user):

        ec = ExperimentController(exp_id="test-stdout")

        node = ec.register_resource("linux::Node")
        ec.set(node, "hostname", host)
        ec.set(node, "username", user)
        ec.set(node, "cleanExperiment", True)
        ec.set(node, "cleanProcesses", True)

        app = ec.register_resource("linux::Application")
        cmd = "echo 'HOLA'"
        ec.set(app, "command", cmd)
        ec.register_connection(app, node)

        ec.deploy()

        ec.wait_finished(app)

        self.assertTrue(ec.state(node) == ResourceState.STARTED)
        self.assertTrue(ec.state(app) == ResourceState.STOPPED)

        stdout = ec.trace(app, "stdout")
        self.assertTrue(stdout.strip() == "HOLA")

        ec.shutdown()

コード例 #10

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ファイルを表示

ファイル: application.py プロジェクト: phiros/nepi

    def t_stdout(self, host, user):

        ec = ExperimentController(exp_id = "test-stdout")
        
        node = ec.register_resource("linux::Node")
        ec.set(node, "hostname", host)
        ec.set(node, "username", user)
        ec.set(node, "cleanExperiment", True)
        ec.set(node, "cleanProcesses", True)

        app = ec.register_resource("linux::Application")
        cmd = "echo 'HOLA'"
        ec.set(app, "command", cmd)
        ec.register_connection(app, node)

        ec.deploy()

        ec.wait_finished(app)

        self.assertTrue(ec.state(node) == ResourceState.STARTED)
        self.assertTrue(ec.state(app) == ResourceState.STOPPED)

        stdout = ec.trace(app, "stdout")
        self.assertTrue(stdout.strip() == "HOLA")

        ec.shutdown()

コード例 #11

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ファイルを表示

ファイル: application.py プロジェクト: phiros/nepi

    def t_http_sources(self, host, user):

        ec = ExperimentController(exp_id="test-http-sources")
        
        node = ec.register_resource("linux::Node")
        ec.set(node, "hostname", host)
        ec.set(node, "username", user)
        ec.set(node, "cleanExperiment", True)
        ec.set(node, "cleanProcesses", True)

        sources = "http://yans.pl.sophia.inria.fr/code/nef/archive/tip.tar.gz;" \
                "http://yans.pl.sophia.inria.fr/code/nef/raw-file/8ace577d4079/src/nef/images/menu/connect.png"

        app = ec.register_resource("linux::Application")
        ec.set(app, "sources", sources)

        command = "ls ${SRC}"
        ec.set(app, "command", command)

        ec.register_connection(app, node)


        ec.deploy()

        ec.wait_finished([app])

        self.assertTrue(ec.state(node) == ResourceState.STARTED)
        self.assertTrue(ec.state(app) == ResourceState.STOPPED)

        exitcode = ec.trace(app, "deploy_exitcode")
        self.assertTrue(exitcode.strip() == "0")
        
        out = ec.trace(app, "deploy_stdout")
        self.assertTrue(out.find("tip.tar.gz") > -1)
        self.assertTrue(out.find("connect.png") > -1)

        stdout = ec.trace(app, "stdout")
        self.assertTrue(stdout.find("tip.tar.gz") > -1)
        self.assertTrue(stdout.find("connect.png") > -1)

        ec.shutdown()

コード例 #12

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ファイルを表示

    def t_http_sources(self, host, user):

        ec = ExperimentController(exp_id="test-http-sources")

        node = ec.register_resource("linux::Node")
        ec.set(node, "hostname", host)
        ec.set(node, "username", user)
        ec.set(node, "cleanExperiment", True)
        ec.set(node, "cleanProcesses", True)

        sources = "http://yans.pl.sophia.inria.fr/code/nef/archive/tip.tar.gz;" \
                "http://yans.pl.sophia.inria.fr/code/nef/raw-file/8ace577d4079/src/nef/images/menu/connect.png"

        app = ec.register_resource("linux::Application")
        ec.set(app, "sources", sources)

        command = "ls ${SRC}"
        ec.set(app, "command", command)

        ec.register_connection(app, node)

        ec.deploy()

        ec.wait_finished([app])

        self.assertTrue(ec.state(node) == ResourceState.STARTED)
        self.assertTrue(ec.state(app) == ResourceState.STOPPED)

        exitcode = ec.trace(app, "deploy_exitcode")
        self.assertTrue(exitcode.strip() == "0")

        out = ec.trace(app, "deploy_stdout")
        self.assertTrue(out.find("tip.tar.gz") > -1)
        self.assertTrue(out.find("connect.png") > -1)

        stdout = ec.trace(app, "stdout")
        self.assertTrue(stdout.find("tip.tar.gz") > -1)
        self.assertTrue(stdout.find("connect.png") > -1)

        ec.shutdown()

コード例 #13

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ファイルを表示

ファイル: resource.py プロジェクト: phiros/nepi

    def test_critical(self):
        from nepi.execution.resource import ResourceFactory
        
        ResourceFactory.register_type(ErrorApplication)
        ResourceFactory.register_type(Application)
        ResourceFactory.register_type(Node)
        ResourceFactory.register_type(Interface)

        ec = ExperimentController()

        node = ec.register_resource("Node")

        apps = list()
        
        eapp = ec.register_resource("ErrorApplication")
        ec.set(eapp, "critical", False)
        ec.register_connection(eapp, node)
        apps.append(eapp)

        for i in xrange(10):
            app = ec.register_resource("Application")
            ec.register_connection(app, node)
            apps.append(app)

        ec.deploy()

        ec.wait_finished(apps)
        
        state = ec.state(eapp)
        self.assertEquals(state, ResourceState.FAILED)
      
        apps.remove(eapp)

        for app in apps:
            state = ec.state(app)
            self.assertEquals(state, ResourceState.STOPPED)
        
        ec.shutdown()

        self.assertEquals(ec._fm._failure_level, FailureLevel.OK)

コード例 #14

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ファイルを表示

ファイル: resource.py プロジェクト: phiros/nepi

    def test_critical(self):
        from nepi.execution.resource import ResourceFactory

        ResourceFactory.register_type(ErrorApplication)
        ResourceFactory.register_type(Application)
        ResourceFactory.register_type(Node)
        ResourceFactory.register_type(Interface)

        ec = ExperimentController()

        node = ec.register_resource("Node")

        apps = list()

        eapp = ec.register_resource("ErrorApplication")
        ec.set(eapp, "critical", False)
        ec.register_connection(eapp, node)
        apps.append(eapp)

        for i in xrange(10):
            app = ec.register_resource("Application")
            ec.register_connection(app, node)
            apps.append(app)

        ec.deploy()

        ec.wait_finished(apps)

        state = ec.state(eapp)
        self.assertEquals(state, ResourceState.FAILED)

        apps.remove(eapp)

        for app in apps:
            state = ec.state(app)
            self.assertEquals(state, ResourceState.STOPPED)

        ec.shutdown()

        self.assertEquals(ec._fm._failure_level, FailureLevel.OK)

コード例 #15

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ファイルを表示

    def t_nodns(self, host, user):

        ec = ExperimentController(exp_id = "test-nodns")
        
        node = ec.register_resource("linux::Node")
        ec.set(node, "hostname", host)
        ec.set(node, "username", user)
        ec.set(node, "cleanExperiment", True)
        ec.set(node, "cleanProcesses", True)

        app = ec.register_resource("linux::Mtr")
        ec.set(app, "noDns", False)
        ec.set(app, "target", self.target)
        ec.register_connection(app, node)

        ec.deploy()

        ec.wait_finished(app)

        stdout = ec.trace(app, "stdout")
        self.assertTrue(stdout.find("1.") > -1)

        ec.shutdown()

コード例 #16

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ファイルを表示

ファイル: ping.py プロジェクト: phiros/nepi

    def t_count(self, host, user):

        ec = ExperimentController(exp_id = "test-ping-count")
        
        node = ec.register_resource("linux::Node")
        ec.set(node, "hostname", host)
        ec.set(node, "username", user)
        ec.set(node, "cleanExperiment", True)
        ec.set(node, "cleanProcesses", True)

        app = ec.register_resource("linux::Ping")
        ec.set(app, "count", "3")
        ec.set(app, "target", self.target)
        ec.register_connection(app, node)

        ec.deploy()

        ec.wait_finished(app)

        stdout = ec.trace(app, "stdout")
        expected = "3 packets transmitted, 3 received, 0% packet loss"
        self.assertTrue(stdout.find(expected) > -1)

        ec.shutdown()

コード例 #17

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ファイルを表示

    def t_count(self, host, user):

        ec = ExperimentController(exp_id="test-ping-count")

        node = ec.register_resource("linux::Node")
        ec.set(node, "hostname", host)
        ec.set(node, "username", user)
        ec.set(node, "cleanExperiment", True)
        ec.set(node, "cleanProcesses", True)

        app = ec.register_resource("linux::Ping")
        ec.set(app, "count", "3")
        ec.set(app, "target", self.target)
        ec.register_connection(app, node)

        ec.deploy()

        ec.wait_finished(app)

        stdout = ec.trace(app, "stdout")
        expected = "3 packets transmitted, 3 received, 0% packet loss"
        self.assertTrue(stdout.find(expected) > -1)

        ec.shutdown()

コード例 #18

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ファイルを表示

ファイル: application.py プロジェクト: phiros/nepi

    def t_copy_files(self, host, user):
        # create some temp files and directories to copy
        dirpath = tempfile.mkdtemp()
        f = tempfile.NamedTemporaryFile(dir=dirpath, delete=False)
        f.close()
      
        f1 = tempfile.NamedTemporaryFile(delete=False)
        f1.close()
        f1.name

        ec = ExperimentController(exp_id="test-copyfile")
        
        node = ec.register_resource("linux::Node")
        ec.set(node, "hostname", host)
        ec.set(node, "username", user)
        ec.set(node, "cleanExperiment", True)
        ec.set(node, "cleanProcesses", True)

        app = ec.register_resource("linux::Application")
        ec.set(app, "command", "ls ${SRC}")
        ec.set(app, "sources", "%s;%s" % (dirpath, f1.name))
        ec.register_connection(app, node)

        ec.deploy()

        ec.wait_finished([app])

        stdout = ec.trace(app, "stdout")
        
        self.assertTrue(stdout.find(os.path.basename(dirpath)) > -1)
        self.assertTrue(stdout.find(os.path.basename(f1.name)) > -1)

        ec.shutdown()
        
        os.remove(f1.name)
        shutil.rmtree(dirpath)

コード例 #19

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ファイルを表示

ファイル: application.py プロジェクト: phiros/nepi

    def t_xterm(self, host, user):

        ec = ExperimentController(exp_id="test-xterm")
        
        node = ec.register_resource("linux::Node")
        ec.set(node, "hostname", host)
        ec.set(node, "username", user)
        ec.set(node, "cleanExperiment", True)
        ec.set(node, "cleanProcesses", True)

        app = ec.register_resource("linux::Application")
        ec.set(app, "command", "xterm")
        ec.set(app, "depends", "xterm")
        ec.set(app, "forwardX11", True)

        ec.register_connection(app, node)

        ec.deploy()

        ec.wait_finished([app])

        self.assertTrue(ec.state(app) == ResourceState.STOPPED)

        ec.shutdown()

コード例 #20

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ファイルを表示

    def t_copy_files(self, host, user):
        # create some temp files and directories to copy
        dirpath = tempfile.mkdtemp()
        f = tempfile.NamedTemporaryFile(dir=dirpath, delete=False)
        f.close()

        f1 = tempfile.NamedTemporaryFile(delete=False)
        f1.close()
        f1.name

        ec = ExperimentController(exp_id="test-copyfile")

        node = ec.register_resource("linux::Node")
        ec.set(node, "hostname", host)
        ec.set(node, "username", user)
        ec.set(node, "cleanExperiment", True)
        ec.set(node, "cleanProcesses", True)

        app = ec.register_resource("linux::Application")
        ec.set(app, "command", "ls ${SRC}")
        ec.set(app, "sources", "%s;%s" % (dirpath, f1.name))
        ec.register_connection(app, node)

        ec.deploy()

        ec.wait_finished([app])

        stdout = ec.trace(app, "stdout")

        self.assertTrue(stdout.find(os.path.basename(dirpath)) > -1)
        self.assertTrue(stdout.find(os.path.basename(f1.name)) > -1)

        ec.shutdown()

        os.remove(f1.name)
        shutil.rmtree(dirpath)

コード例 #21

0

ファイルを表示

    def t_concurrency(self, host, user):

        ec = ExperimentController(exp_id="test-concurrency")

        node = ec.register_resource("linux::Node")
        ec.set(node, "hostname", host)
        ec.set(node, "username", user)
        ec.set(node, "cleanExperiment", True)
        ec.set(node, "cleanProcesses", True)

        apps = list()
        for i in xrange(50):
            app = ec.register_resource("linux::Application")
            cmd = "ping -c5 %s" % self.target
            ec.set(app, "command", cmd)
            ec.register_connection(app, node)
            apps.append(app)

        ec.deploy()

        ec.wait_finished(apps)

        self.assertTrue(ec.state(node) == ResourceState.STARTED)
        self.assertTrue(
               all([ec.state(guid) == ResourceState.STOPPED \
                for guid in apps])
                )

        for app in apps:
            stdout = ec.trace(app, 'stdout')
            size = ec.trace(app, 'stdout', attr=TraceAttr.SIZE)
            self.assertEquals(len(stdout), size)

            block = ec.trace(app,
                             'stdout',
                             attr=TraceAttr.STREAM,
                             block=5,
                             offset=1)
            self.assertEquals(block, stdout[5:10])

            path = ec.trace(app, 'stdout', attr=TraceAttr.PATH)
            rm = ec.get_resource(app)
            p = os.path.join(rm.run_home, 'stdout')
            self.assertEquals(path, p)

        ec.shutdown()

コード例 #22

0

ファイルを表示

    def t_xterm(self, host, user):

        ec = ExperimentController(exp_id="test-xterm")

        node = ec.register_resource("linux::Node")
        ec.set(node, "hostname", host)
        ec.set(node, "username", user)
        ec.set(node, "cleanExperiment", True)
        ec.set(node, "cleanProcesses", True)

        app = ec.register_resource("linux::Application")
        ec.set(app, "command", "xterm")
        ec.set(app, "depends", "xterm")
        ec.set(app, "forwardX11", True)

        ec.register_connection(app, node)

        ec.deploy()

        ec.wait_finished([app])

        self.assertTrue(ec.state(app) == ResourceState.STOPPED)

        ec.shutdown()

コード例 #23

0

ファイルを表示

ファイル: application.py プロジェクト: phiros/nepi

    def t_concurrency(self, host, user):

        ec = ExperimentController(exp_id="test-concurrency")
        
        node = ec.register_resource("linux::Node")
        ec.set(node, "hostname", host)
        ec.set(node, "username", user)
        ec.set(node, "cleanExperiment", True)
        ec.set(node, "cleanProcesses", True)

        apps = list()
        for i in xrange(50):
            app = ec.register_resource("linux::Application")
            cmd = "ping -c5 %s" % self.target 
            ec.set(app, "command", cmd)
            ec.register_connection(app, node)
            apps.append(app)

        ec.deploy()

        ec.wait_finished(apps)

        self.assertTrue(ec.state(node) == ResourceState.STARTED)
        self.assertTrue(
               all([ec.state(guid) == ResourceState.STOPPED \
                for guid in apps])
                )

        for app in apps:
            stdout = ec.trace(app, 'stdout')
            size = ec.trace(app, 'stdout', attr = TraceAttr.SIZE)
            self.assertEquals(len(stdout), size)
            
            block = ec.trace(app, 'stdout', attr = TraceAttr.STREAM, block = 5, offset = 1)
            self.assertEquals(block, stdout[5:10])

            path = ec.trace(app, 'stdout', attr = TraceAttr.PATH)
            rm = ec.get_resource(app)
            p = os.path.join(rm.run_home, 'stdout')
            self.assertEquals(path, p)

        ec.shutdown()

コード例 #24

0

ファイルを表示

# Author: Lucia Guevgeozian <*****@*****.**>

from nepi.execution.ec import ExperimentController
from nepi.execution.resource import ResourceAction, ResourceState
import os

# Create the EC
exp_id = "example_geo"
ec = ExperimentController(exp_id)

pl_user = "******"
pl_password = os.environ.get("PL_PASS")
slicename = "inria_sfatest"

node1 = ec.register_resource("PlanetlabNode")
ec.set(node1, "hostname", "planetlab2.dit.upm.es")
minBandwidth = X
ec.set(node1, "minBandwidth", minBandwidth)
ec.set(node1, "username", slicename)
ec.set(node1, "pluser", pl_user)
ec.set(node1, "plpassword", pl_password)
ec.set(node1, "cleanHome", True)
ec.set(node1, "cleanProcesses", True)

node2 = ec.register_resource("PlanetlabNode")
ec.set(node2, "country", "Spain")
ec.set(node2, "username", slicename)
ec.set(node2, "pluser", pl_user)
ec.set(node2, "plpassword", pl_password)
ec.set(node2, "cleanHome", True)
ec.set(node2, "cleanProcesses", True)

コード例 #25

0

ファイルを表示

ファイル: nepi_omf6_nitos_vlc.py プロジェクト: phiros/nepi

            Julien Tribino <*****@*****.**>


"""

#!/usr/bin/env python
from nepi.execution.resource import ResourceFactory, ResourceAction, ResourceState
from nepi.execution.ec import ExperimentController

# Create the EC
ec = ExperimentController()

# Create and Configure the Nodes

node1 = ec.register_resource("omf::Node")
ec.set(node1, 'hostname', 'node025')
ec.set(node1, 'xmppServer', "nitlab.inf.uth.gr")
ec.set(node1, 'xmppUser', "nepi")
ec.set(node1, 'xmppPort', "5222")
ec.set(node1, 'xmppPassword', "1234")

iface1 = ec.register_resource("omf::WifiInterface")
ec.set(iface1, 'name', 'wlan0')
ec.set(iface1, 'mode', "adhoc")
ec.set(iface1, 'hw_mode', "g")
ec.set(iface1, 'essid', "vlc")
ec.set(iface1, 'ip', "192.168.0.25/24")

node2 = ec.register_resource("omf::Node")
ec.set(node2, 'hostname', 'node027')
ec.set(node2, 'xmppServer', "nitlab.inf.uth.gr")

コード例 #26

0

ファイルを表示

ファイル: tap.py プロジェクト: phiros/nepi

    def t_tap_create(self, host, user=None, identity=None):

        ec = ExperimentController(exp_id="test-tap-create")
        
        node = ec.register_resource("linux::Node")
        ec.set(node, "hostname", host)

        if host != "localhost":
            ec.set(node, "username", user)
            ec.set(node, "identity", identity)

        ec.set(node, "cleanExperiment", True)
        ec.set(node, "cleanProcesses", True)

        tap = ec.register_resource("linux::Tap")
        ec.set(tap, "ip", "%s.1" % self.netblock)
        ec.set(tap, "prefix", "24")
        ec.register_connection(tap, node)

        app = ec.register_resource("linux::Application")
        cmd = "ping -c3 %s.1" % self.netblock
        ec.set(app, "command", cmd)
        ec.register_connection(app, node)

        ec.deploy()

        ec.wait_finished(app)

        ping = ec.trace(app, "stdout")
        expected = """3 packets transmitted, 3 received, 0% packet loss"""
        self.assertTrue(ping.find(expected) > -1)
        
        if_name = ec.get(tap, "deviceName")
        self.assertTrue(if_name.startswith("tap"))

        ec.shutdown()

コード例 #27

0

ファイルを表示

ファイル: nitos_omf6_vlc.py プロジェクト: phiros/nepi

        type="str")
parser.add_option("-s", "--slice-name", dest="slicename", 
        help="Nitos slice name", type="str")
(options, args) = parser.parse_args()

nodex = options.nodex
nodez = options.nodez
slicename = options.slicename
chan = options.channel

# Create the EC
ec = ExperimentController(exp_id="nitos_omf6_vlc")

# Create and Configure the Nodes
node1 = ec.register_resource("omf::Node")
ec.set(node1, "hostname", nodex)
ec.set(node1, "xmppUser", slicename)
ec.set(node1, "xmppServer", "nitlab.inf.uth.gr")
ec.set(node1, "xmppPort", "5222")
ec.set(node1, "xmppPassword", "1234")

# Create and Configure the Interfaces
iface1 = ec.register_resource("omf::WifiInterface")
ec.set(iface1, "name", "wlan0")
ec.set(iface1, "mode", "adhoc")
ec.set(iface1, "hw_mode", "g")
ec.set(iface1, "essid", "vlc")
ec.set(iface1, "ip", "192.168.0.%s/24" % nodex[-2:]) 
ec.register_connection(node1, iface1)

# Create and Configure the Nodes

コード例 #28

0

ファイルを表示

    def t_rtt(self, user1, host1, user2, host2):

        ec = ExperimentController(exp_id="test-udptest-rtt")

        node1 = ec.register_resource("linux::Node")
        ec.set(node1, "hostname", host1)
        ec.set(node1, "username", user1)
        ec.set(node1, "cleanExperiment", True)
        ec.set(node1, "cleanProcesses", True)

        server = ec.register_resource("linux::UdpTest")
        ec.set(server, "s", True)
        ec.register_connection(server, node1)

        node2 = ec.register_resource("linux::Node")
        ec.set(node2, "hostname", host2)
        ec.set(node2, "username", user2)
        ec.set(node2, "cleanExperiment", True)
        ec.set(node2, "cleanProcesses", True)

        client = ec.register_resource("linux::UdpTest")
        ec.set(client, "a", True)
        ec.set(client, "target", host1)
        ec.register_connection(client, node2)

        ec.deploy()

        ec.wait_finished(client)

        stdout = ec.trace(client, "stderr")
        self.assertTrue(
            stdout.find("10 trials with message size 64 Bytes.") > -1)

        ec.shutdown()

コード例 #29

0

ファイルを表示

ファイル: local_wifi_ping.py プロジェクト: phiros/nepi

#    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/>.
#
# Author: Alina Quereilhac <*****@*****.**>

from nepi.execution.ec import ExperimentController 

ec = ExperimentController(exp_id = "ns3-local-wifi-ping")

# Simulation will executed in the local machine
node = ec.register_resource("linux::Node")
ec.set(node, "hostname", "localhost")

# Add a simulation resource
simu = ec.register_resource("linux::ns3::Simulation")
ec.set(simu, "verbose", True)
ec.register_connection(simu, node)

## Add a ns-3 node with its protocol stack
nsnode1 = ec.register_resource("ns3::Node")
ec.register_connection(nsnode1, simu)

ipv4 = ec.register_resource("ns3::Ipv4L3Protocol")
ec.register_connection(nsnode1, ipv4)
arp = ec.register_resource("ns3::ArpL3Protocol")
ec.register_connection(nsnode1, arp)
icmp = ec.register_resource("ns3::Icmpv4L4Protocol")

コード例 #30

0

ファイルを表示

ファイル: vod_experiment.py プロジェクト: phiros/nepi

# Register ifaces in wireless nodes

iface_center = create_omf_iface(ec, "192.168.0.1/24", wifi_center)
iface_client1 = create_omf_iface(ec, "192.168.0.2/24", client1)
iface_client2 = create_omf_iface(ec, "192.168.0.3/24", client2)
iface_client3 = create_omf_iface(ec, "192.168.0.4/24", client3)
iface_client4 = create_omf_iface(ec, "192.168.0.5/24", client4)
iface_client5 = create_omf_iface(ec, "192.168.0.6/24", client5)

omf_ifaces = [iface_center, iface_client1, iface_client2, iface_client3, iface_client4, iface_client5]

# Register channel

chan = ec.register_resource("omf::Channel")
ec.set(chan, 'channel', "6")

# Register connection ifaces - channel

ec.register_connection(iface_center, chan)
ec.register_connection(iface_client1, chan)
ec.register_connection(iface_client2, chan)
ec.register_connection(iface_client3, chan)
ec.register_connection(iface_client4, chan)
ec.register_connection(iface_client5, chan)

resources = [video_server] + omf_nodes + omf_ifaces + [chan]

# Deploy physical resources and wait until they become provisioned

ec.deploy(resources)

コード例 #31

0

ファイルを表示

ファイル: udptest.py プロジェクト: phiros/nepi

    def t_rtt(self, user1, host1, user2, host2):

        ec = ExperimentController(exp_id = "test-udptest-rtt")
        
        node1 = ec.register_resource("linux::Node")
        ec.set(node1, "hostname", host1)
        ec.set(node1, "username", user1)
        ec.set(node1, "cleanExperiment", True)
        ec.set(node1, "cleanProcesses", True)

        server = ec.register_resource("linux::UdpTest")
        ec.set(server, "s", True)
        ec.register_connection(server, node1)
 
        node2 = ec.register_resource("linux::Node")
        ec.set(node2, "hostname", host2)
        ec.set(node2, "username", user2)
        ec.set(node2, "cleanExperiment", True)
        ec.set(node2, "cleanProcesses", True)

        client = ec.register_resource("linux::UdpTest")
        ec.set(client, "a", True)
        ec.set(client, "target", host1)
        ec.register_connection(client, node2)

        ec.deploy()

        ec.wait_finished(client)

        stdout = ec.trace(client, "stderr")
        self.assertTrue(stdout.find("10 trials with message size 64 Bytes.") > -1)

        ec.shutdown()

コード例 #32

0

ファイルを表示

ファイル: geo_cloud.py プロジェクト: ruben11291/master-thesis

from nepi.execution.ec import ExperimentController
from nepi.execution.resource import ResourceAction, ResourceState
import os

# Create the EC
exp_id = "example_geo"
ec = ExperimentController(exp_id)

pl_user = "******"
pl_password =  os.environ.get("PL_PASS")
slicename = "inria_sfatest"


node1 = ec.register_resource("PlanetlabNode")
ec.set(node1, "hostname", "planetlab2.dit.upm.es")
minBandwidth = X
ec.set(node1, "minBandwidth", minBandwidth)
ec.set(node1, "username", slicename)
ec.set(node1, "pluser", pl_user)
ec.set(node1, "plpassword", pl_password)
ec.set(node1, "cleanHome", True)
ec.set(node1, "cleanProcesses", True)

node2 = ec.register_resource("PlanetlabNode")
ec.set(node2, "country", "Spain")
ec.set(node2, "username", slicename)
ec.set(node2, "pluser", pl_user)
ec.set(node2, "plpassword", pl_password)
ec.set(node2, "cleanHome", True)
ec.set(node2, "cleanProcesses", True)

コード例 #33

0

ファイルを表示

    def t_condition(self, host, user, depends):

        ec = ExperimentController(exp_id="test-condition")

        node = ec.register_resource("linux::Node")
        ec.set(node, "hostname", host)
        ec.set(node, "username", user)
        ec.set(node, "cleanExperiment", True)
        ec.set(node, "cleanProcesses", True)

        server = ec.register_resource("linux::Application")
        cmd = "echo 'HOLA' | nc -l 3333"
        ec.set(server, "command", cmd)
        ec.set(server, "depends", depends)
        ec.register_connection(server, node)

        client = ec.register_resource("linux::Application")
        cmd = "nc 127.0.0.1 3333"
        ec.set(client, "command", cmd)
        ec.register_connection(client, node)

        ec.register_condition(client, ResourceAction.START, server,
                              ResourceState.STARTED)

        apps = [client, server]

        ec.deploy()

        ec.wait_finished(apps)

        self.assertTrue(ec.state(node) == ResourceState.STARTED)
        self.assertTrue(ec.state(server) == ResourceState.STOPPED)
        self.assertTrue(ec.state(client) == ResourceState.STOPPED)

        stdout = ec.trace(client, "stdout")
        self.assertTrue(stdout.strip() == "HOLA")

        ec.shutdown()

コード例 #34

0

ファイルを表示

ファイル: ns3dceccn.py プロジェクト: phiros/nepi

    def t_dce_ccn(self, host, user = None, identity = None):
        ec = ExperimentController(exp_id = "test-dce-ccn-app")

        node = ec.register_resource("linux::Node")
        if host == "localhost":
            ec.set(node, "hostname", host)
        else:
            ec.set(node, "hostname", host)
            ec.set(node, "username", user)
            ec.set(node, "identity", identity)
        
        ec.set(node, "cleanProcesses", True)
        #ec.set(node, "cleanHome", True)

        simu = ec.register_resource("linux::ns3::Simulation")
        #ec.set(simu, "verbose", True)
        #ec.set(simu, "buildMode", "debug")
        #ec.set(simu, "nsLog", "DceApplication")
        ec.register_connection(simu, node)

        nsnode1 = add_ns3_node(ec, simu)
        p2p1 = add_point2point_device(ec, nsnode1, "10.0.0.1", "30")
        ec.set(p2p1, "DataRate", "5Mbps")

        nsnode2 = add_ns3_node(ec, simu)
        p2p2 = add_point2point_device(ec, nsnode2, "10.0.0.2", "30")
        ec.set(p2p2, "DataRate", "5Mbps")

        # Create channel
        chan = ec.register_resource("ns3::PointToPointChannel")
        ec.set(chan, "Delay", "2ms")

        ec.register_connection(chan, p2p1)
        ec.register_connection(chan, p2p2)

        ### create applications
        ccnd1 = ec.register_resource("linux::ns3::dce::CCND")
        ec.set (ccnd1, "stackSize", 1<<20)
        ec.set (ccnd1, "debug", 7)
        ec.set (ccnd1, "capacity", 50000)
        ec.set (ccnd1, "StartTime", "1s")
        ec.set (ccnd1, "StopTime", "20s")
        ec.register_connection(ccnd1, nsnode1)

        repofile = os.path.join(
            os.path.dirname(os.path.realpath(__file__)),
            "repoFile1")

        ccnr = ec.register_resource("linux::ns3::dce::CCNR")
        ec.set (ccnr, "repoFile1", repofile) 
        ec.set (ccnr, "stackSize", 1<<20)
        ec.set (ccnr, "StartTime", "2s")
        ec.set (ccnr, "StopTime", "120s")
        ec.register_connection(ccnr, nsnode1)

        ccndc1 = ec.register_resource("linux::ns3::dce::FIBEntry")
        ec.set (ccndc1, "protocol", "udp") 
        ec.set (ccndc1, "uri", "ccnx:/") 
        ec.set (ccndc1, "host", "10.0.0.2") 
        ec.set (ccndc1, "stackSize", 1<<20)
        ec.set (ccndc1, "StartTime", "2s")
        ec.set (ccndc1, "StopTime", "120s")
        ec.register_connection(ccndc1, nsnode1)

        ccnd2 = ec.register_resource("linux::ns3::dce::CCND")
        ec.set (ccnd2, "stackSize", 1<<20)
        ec.set (ccnd2, "debug", 7)
        ec.set (ccnd2, "capacity", 50000)
        ec.set (ccnd2, "StartTime", "1s")
        ec.set (ccnd2, "StopTime", "20s")
        ec.register_connection(ccnd2, nsnode2)

        ccndc2 = ec.register_resource("linux::ns3::dce::FIBEntry")
        ec.set (ccndc2, "protocol", "udp") 
        ec.set (ccndc2, "uri", "ccnx:/") 
        ec.set (ccndc2, "host", "10.0.0.1") 
        ec.set (ccndc2, "stackSize", 1<<20)
        ec.set (ccndc2, "StartTime", "2s")
        ec.set (ccndc2, "StopTime", "120s")
        ec.register_connection(ccndc2, nsnode2)

        ccnpeek = ec.register_resource("linux::ns3::dce::CCNPeek")
        ec.set (ccnpeek, "contentName", "ccnx:/test/bunny.ts")
        ec.set (ccnpeek, "stackSize", 1<<20)
        ec.set (ccnpeek, "StartTime", "4s")
        ec.set (ccnpeek, "StopTime", "120s")
        ec.register_connection(ccnpeek, nsnode2)

        ccncat = ec.register_resource("linux::ns3::dce::CCNCat")
        ec.set (ccncat, "contentName", "ccnx:/test/bunny.ts")
        ec.set (ccncat, "stackSize", 1<<20)
        ec.set (ccncat, "StartTime", "4s")
        ec.set (ccncat, "StopTime", "120s")
        ec.register_connection(ccncat, nsnode2)

        ec.deploy()

        ec.wait_finished([ccncat])

        expected = "ccncat ccnx:/test/bunny.ts"
        cmdline = ec.trace(ccncat, "cmdline")
        self.assertTrue(cmdline.find(expected) > -1, cmdline)

        expected = "Start Time: NS3 Time:          4s ("
        status = ec.trace(ccncat, "status")
        self.assertTrue(status.find(expected) > -1, status)

        expected = 2873956
        stdout = ec.trace(ccncat, "stdout")
        self.assertTrue(len(stdout) == expected , stdout)

        ec.shutdown()

コード例 #35

0

ファイルを表示

ファイル: custom_dlm_ping.py プロジェクト: phiros/nepi

def add_device(ec, node, ip,  prefix):
    dev = ec.register_resource("ns3::PointToPointNetDevice")
    ec.set(dev, "ip", ip)
    ec.set(dev, "prefix", prefix)
    ec.register_connection(node, dev)

    queue = ec.register_resource("ns3::DropTailQueue")
    ec.register_connection(dev, queue)

    return dev

ec = ExperimentController(exp_id = "dce-custom-dlm-ping")

node = ec.register_resource("linux::Node")
ec.set(node, "hostname", "localhost")
ec.set(node, "cleanProcesses", True)

simu = ec.register_resource("linux::ns3:Simulation")
ec.set(simu, "verbose", True)
#ec.set(simu, "enableDump", True)
ec.register_connection(simu, node)

nsnode1 = add_ns3_node(ec, simu)
dev1 = add_device(ec, nsnode1, "10.0.0.1", "30")
ec.set(dev1, "DataRate", "5Mbps")

nsnode2 = add_ns3_node(ec, simu)
dev2 = add_device(ec, nsnode2, "10.0.0.2", "30")
ec.set(dev2, "DataRate", "5Mbps")

コード例 #36

0

ファイルを表示

ファイル: ns3fdnetdevice.py プロジェクト: phiros/nepi

    def t_dummy(self, host, user = None, identity = None):
        ec = ExperimentController(exp_id = "test-ns3-fd-dummy")
        
        node = ec.register_resource("linux::Node")
        if host == "localhost":
            ec.set(node, "hostname", "localhost")
        else:
            ec.set(node, "hostname", host)
            ec.set(node, "username", user)
            ec.set(node, "identity", identity)
        
        ec.set(node, "cleanProcesses", True)
        #ec.set(node, "cleanExperiment", True)

        simu = ec.register_resource("linux::ns3::Simulation")
        ec.set(simu, "simulatorImplementationType", "ns3::RealtimeSimulatorImpl")
        ec.set(simu, "checksumEnabled", True)
        ec.set(simu, "verbose", True)
        ec.register_connection(simu, node)

        nsnode1 = add_ns3_node(ec, simu)
        dev1 = add_fd_device(ec, nsnode1, "10.0.0.1", "30")

        nsnode2 = add_ns3_node(ec, simu)
        dev2 = add_fd_device(ec, nsnode2, "10.0.0.2", "30")
        
        channel = ec.register_resource("ns3::PipeChannel")
        ec.register_connection(channel, dev1)
        ec.register_connection(channel, dev2)

        ### create pinger
        ping = ec.register_resource("ns3::V4Ping")
        ec.set (ping, "Remote", "10.0.0.2")
        ec.set (ping, "Interval", "1s")
        ec.set (ping, "Verbose", True)
        ec.set (ping, "StartTime", "0s")
        ec.set (ping, "StopTime", "20s")
        ec.register_connection(ping, nsnode1)

        ec.deploy()

        ec.wait_finished([ping])

        stdout = ec.trace(simu, "stdout") 

        print stdout

        expected = "20 packets transmitted, 20 received, 0% packet loss"
        self.assertTrue(stdout.find(expected) > -1)

        ec.shutdown()

コード例 #37

0

ファイルを表示

ファイル: ping.py プロジェクト: phiros/nepi

        help="Remote host", type="str")
parser.add_option("-u", "--username", dest="username", 
        help="Username to SSH to remote host", type="str")
parser.add_option("-i", "--ssh-key", dest="ssh_key", 
        help="Path to private SSH key to be used for connection", 
        type="str")
(options, args) = parser.parse_args()

hostname = options.hostname
username = options.username
ssh_key = options.ssh_key

ec = ExperimentController(exp_id = "ping-exp")
        
node = ec.register_resource("linux::Node")
ec.set(node, "hostname", hostname)
ec.set(node, "username", username)
ec.set(node, "identity", ssh_key)
ec.set(node, "cleanExperiment", True)
ec.set(node, "cleanProcesses", True)

app = ec.register_resource("linux::Application")
ec.set(app, "command", "ping -c3 nepi.inria.fr")
ec.register_connection(app, node)

ec.deploy()

ec.wait_finished(app)

print ec.trace(app, "stdout")

コード例 #38

0

ファイルを表示

    def t_tun_udp_tunnel(self, user1, host1, identity1, user2, host2, identity2):

        ec = ExperimentController(exp_id="test-tun-udp-tunnel")
        
        node1 = ec.register_resource("linux::Node")
        ec.set(node1, "hostname", host1)
        ec.set(node1, "username", user1)
        ec.set(node1, "identity", identity1)
        ec.set(node1, "cleanExperiment", True)
        ec.set(node1, "cleanProcesses", True)

        tun1 = ec.register_resource("linux::Tun")
        ec.set(tun1, "ip", "%s.1" % self.netblock)
        ec.set(tun1, "prefix", "32")
        ec.register_connection(tun1, node1)

        node2 = ec.register_resource("linux::Node")
        ec.set(node2, "hostname", host2)
        ec.set(node2, "username", user2)
        ec.set(node2, "identity", identity2)
        ec.set(node2, "cleanExperiment", True)
        ec.set(node2, "cleanProcesses", True)

        tun2 = ec.register_resource("linux::Tun")
        ec.set(tun2, "ip", "%s.2" % self.netblock)
        ec.set(tun2, "prefix", "32")
        ec.register_connection(tun2, node2)

        udptun = ec.register_resource("linux::UdpTunnel")
        ec.register_connection(tun1, udptun)
        ec.register_connection(tun2, udptun)

        app = ec.register_resource("linux::Application")
        cmd = "ping -c3 %s.2" % self.netblock
        ec.set(app, "command", cmd)
        ec.register_connection(app, node1)

        ec.deploy()

        ec.wait_finished(app)

        ping = ec.trace(app, "stdout")
        expected = """3 packets transmitted, 3 received, 0% packet loss"""
        self.assertTrue(ping.find(expected) > -1)
        
        vif_name = ec.get(tun1, "deviceName")
        self.assertTrue(vif_name.startswith("tun"))
        
        vif_name = ec.get(tun2, "deviceName")
        self.assertTrue(vif_name.startswith("tun"))

        ec.shutdown()

コード例 #39

0

ファイルを表示

    def t_wifi_serialize(self, host, user=None, identity=None):
        bounds_width = bounds_height = 200
        x = y = 100
        speed = 1

        dirpath = tempfile.mkdtemp()

        ec = ExperimentController(exp_id="test-ns3-wifi-ping")

        node = ec.register_resource("linux::Node")
        if host == "localhost":
            ec.set(node, "hostname", "localhost")
        else:
            ec.set(node, "hostname", host)
            ec.set(node, "username", user)
            ec.set(node, "identity", identity)

        ec.set(node, "cleanProcesses", True)
        #ec.set(node, "cleanHome", True)

        simu = ec.register_resource("linux::ns3::Simulation")
        ec.set(simu, "verbose", True)
        ec.register_connection(simu, node)

        nsnode1 = add_ns3_node(ec, simu)
        dev1, phy1 = add_wifi_device(ec,
                                     nsnode1,
                                     "10.0.0.1",
                                     "24",
                                     access_point=True)
        mobility1 = add_constant_mobility(ec, nsnode1, x, y, 0)

        nsnode2 = add_ns3_node(ec, simu)
        dev2, phy2 = add_wifi_device(ec,
                                     nsnode2,
                                     "10.0.0.2",
                                     "24",
                                     access_point=False)
        mobility1 = add_constant_mobility(ec, nsnode2, x, y, 0)
        #mobility2 = add_random_mobility(ec, nsnode2, x, y, 0, speed, bounds_width, bounds_height)

        # Create channel
        chan = add_wifi_channel(ec)
        ec.register_connection(chan, phy1)
        ec.register_connection(chan, phy2)

        ### create pinger
        ping = ec.register_resource("ns3::V4Ping")
        ec.set(ping, "Remote", "10.0.0.1")
        ec.set(ping, "Interval", "1s")
        ec.set(ping, "Verbose", True)
        ec.set(ping, "StartTime", "1s")
        ec.set(ping, "StopTime", "21s")
        ec.register_connection(ping, nsnode2)

        filepath = ec.save(dirpath)
        print filepath

        ec.deploy()

        ec.wait_finished([ping])

        stdout = ec.trace(simu, "stdout")

        expected = "20 packets transmitted, 20 received, 0% packet loss"
        self.assertTrue(stdout.find(expected) > -1)

        ec.shutdown()

        # Load serialized experiment
        ec2 = ExperimentController.load(filepath)

        ec2.deploy()

        ec2.wait_finished([ping])

        self.assertEquals(len(ec.resources), len(ec2.resources))

        stdout = ec2.trace(simu, "stdout")

        expected = "20 packets transmitted, 20 received, 0% packet loss"
        self.assertTrue(stdout.find(expected) > -1)

        ec2.shutdown()

        shutil.rmtree(dirpath)

コード例 #40

0

ファイルを表示

ファイル: custom_local_p2p_ccn.py プロジェクト: phiros/nepi

def add_device(ec, node, ip, prefix):
    dev = ec.register_resource("ns3::PointToPointNetDevice")
    ec.set(dev, "ip", ip)
    ec.set(dev, "prefix", prefix)
    ec.register_connection(node, dev)

    queue = ec.register_resource("ns3::DropTailQueue")
    ec.register_connection(dev, queue)

    return dev


ec = ExperimentController(exp_id="dce-custom-ccn")

node = ec.register_resource("linux::Node")
ec.set(node, "hostname", "localhost")
ec.set(node, "cleanProcesses", True)

simu = ec.register_resource("linux::ns3::Simulation")
ec.set(simu, "verbose", True)
ec.register_connection(simu, node)

nsnode1 = add_ns3_node(ec, simu)
dev1 = add_device(ec, nsnode1, "10.0.0.1", "30")
ec.set(dev1, "DataRate", "5Mbps")

nsnode2 = add_ns3_node(ec, simu)
dev2 = add_device(ec, nsnode2, "10.0.0.2", "30")
ec.set(dev2, "DataRate", "5Mbps")

# Create channel

コード例 #41

0

ファイルを表示

    def t_routing_serialize(self, host, user=None, identity=None):
        """ 
        network topology:
                                n4
                                |
           n1 -- p2p -- n2 -- csma -- n5 -- p2p -- n6
           |                    | 
           ping n6              n3
           

        """
        dirpath = tempfile.mkdtemp()

        ec = ExperimentController(exp_id="test-ns3-routes")

        node = ec.register_resource("linux::Node")
        if host == "localhost":
            ec.set(node, "hostname", host)
        else:
            ec.set(node, "hostname", host)
            ec.set(node, "username", user)
            ec.set(node, "identity", identity)

        ec.set(node, "cleanProcesses", True)
        #ec.set(node, "cleanHome", True)

        simu = ec.register_resource("linux::ns3::Simulation")
        ec.set(simu, "verbose", True)
        ec.register_connection(simu, node)

        nsnode1 = add_ns3_node(ec, simu)
        p2p12 = add_point2point_device(ec, nsnode1, "10.0.0.1", "30")

        nsnode2 = add_ns3_node(ec, simu)
        p2p21 = add_point2point_device(ec, nsnode2, "10.0.0.2", "30")
        csma2 = add_csma_device(ec, nsnode2, "10.0.1.1", "24")

        nsnode3 = add_ns3_node(ec, simu)
        csma3 = add_csma_device(ec, nsnode3, "10.0.1.2", "24")

        nsnode4 = add_ns3_node(ec, simu)
        csma4 = add_csma_device(ec, nsnode4, "10.0.1.3", "24")

        nsnode5 = add_ns3_node(ec, simu)
        p2p56 = add_point2point_device(ec, nsnode5, "10.0.2.1", "30")
        csma5 = add_csma_device(ec, nsnode5, "10.0.1.4", "24")

        nsnode6 = add_ns3_node(ec, simu)
        p2p65 = add_point2point_device(ec, nsnode6, "10.0.2.2", "30")

        # P2P chan1
        p2p_chan1 = ec.register_resource("ns3::PointToPointChannel")
        ec.set(p2p_chan1, "Delay", "0s")
        ec.register_connection(p2p_chan1, p2p12)
        ec.register_connection(p2p_chan1, p2p21)

        # CSMA chan
        csma_chan = ec.register_resource("ns3::CsmaChannel")
        ec.set(csma_chan, "Delay", "0s")
        ec.register_connection(csma_chan, csma2)
        ec.register_connection(csma_chan, csma3)
        ec.register_connection(csma_chan, csma4)
        ec.register_connection(csma_chan, csma5)

        # P2P chan2
        p2p_chan2 = ec.register_resource("ns3::PointToPointChannel")
        ec.set(p2p_chan2, "Delay", "0s")
        ec.register_connection(p2p_chan2, p2p56)
        ec.register_connection(p2p_chan2, p2p65)

        # Add routes - n1 - n6
        r1 = ec.register_resource("ns3::Route")
        ec.set(r1, "network", "10.0.2.0")
        ec.set(r1, "prefix", "30")
        ec.set(r1, "nexthop", "10.0.0.2")
        ec.register_connection(r1, nsnode1)

        # Add routes - n2 - n6
        r2 = ec.register_resource("ns3::Route")
        ec.set(r2, "network", "10.0.2.0")
        ec.set(r2, "prefix", "30")
        ec.set(r2, "nexthop", "10.0.1.4")
        ec.register_connection(r2, nsnode2)

        # Add routes - n5 - n1
        r5 = ec.register_resource("ns3::Route")
        ec.set(r5, "network", "10.0.0.0")
        ec.set(r5, "prefix", "30")
        ec.set(r5, "nexthop", "10.0.1.1")
        ec.register_connection(r5, nsnode5)

        # Add routes - n6 - n1
        r6 = ec.register_resource("ns3::Route")
        ec.set(r6, "network", "10.0.0.0")
        ec.set(r6, "prefix", "30")
        ec.set(r6, "nexthop", "10.0.2.1")
        ec.register_connection(r6, nsnode6)

        ### create pinger
        ping = ec.register_resource("ns3::V4Ping")
        ec.set(ping, "Remote", "10.0.2.2")
        ec.set(ping, "Interval", "1s")
        ec.set(ping, "Verbose", True)
        ec.set(ping, "StartTime", "1s")
        ec.set(ping, "StopTime", "21s")
        ec.register_connection(ping, nsnode1)

        filepath = ec.save(dirpath)
        print filepath

        ec.deploy()

        ec.wait_finished([ping])

        stdout = ec.trace(simu, "stdout")

        expected = "20 packets transmitted, 20 received, 0% packet loss"
        self.assertTrue(stdout.find(expected) > -1)

        ec.shutdown()

        # Load serialized experiment
        ec2 = ExperimentController.load(filepath)

        ec2.deploy()

        ec2.wait_finished([ping])

        self.assertEquals(len(ec.resources), len(ec2.resources))

        stdout = ec2.trace(simu, "stdout")

        expected = "20 packets transmitted, 20 received, 0% packet loss"
        self.assertTrue(stdout.find(expected) > -1)

        ec2.shutdown()

        shutil.rmtree(dirpath)

コード例 #42

0

ファイルを表示

        * t2 (t1 + 5s) : An other message is send

"""

#!/usr/bin/env python
from nepi.execution.resource import ResourceFactory, ResourceAction, ResourceState
from nepi.execution.ec import ExperimentController

import time

# Create the EC
ec = ExperimentController()

# Create and Configure the Nodes
node1 = ec.register_resource("omf::Node")
ec.set(node1, 'hostname', 'omf.plexus.wlab17')
ec.set(node1, 'xmppServer', "nepi")
ec.set(node1, 'xmppUser', "xmpp-plexus.onelab.eu")
ec.set(node1, 'xmppPort', "5222")
ec.set(node1, 'xmppPassword', "1234")
ec.set(node1, 'version', "5")

# Create and Configure the Application
app1 = ec.register_resource("omf::Application")
ec.set(app1, 'appid', "robot")
ec.set(app1, 'command', "/root/CTRL_test.rb coord.csv")
ec.set(app1, 'env', "DISPLAY=localhost:10.0 XAUTHORITY=/root/.Xauthority")
ec.set(app1, 'version', "5")

# Connection
ec.register_connection(app1, node1)

コード例 #43

0

ファイルを表示

    def t_dce_serialize(self, host, user=None, identity=None):
        dirpath = tempfile.mkdtemp()

        ec = ExperimentController(exp_id="test-ns3-dce")

        node = ec.register_resource("linux::Node")
        if host == "localhost":
            ec.set(node, "hostname", host)
        else:
            ec.set(node, "hostname", host)
            ec.set(node, "username", user)
            ec.set(node, "identity", identity)

        ec.set(node, "cleanProcesses", True)
        #ec.set(node, "cleanHome", True)

        simu = ec.register_resource("linux::ns3::Simulation")
        ec.set(simu, "verbose", True)
        ec.register_connection(simu, node)

        nsnode1 = add_ns3_node(ec, simu)
        p2p1 = add_point2point_device(ec, nsnode1, "10.0.0.1", "30")
        ec.set(p2p1, "DataRate", "5Mbps")

        nsnode2 = add_ns3_node(ec, simu)
        p2p2 = add_point2point_device(ec, nsnode2, "10.0.0.2", "30")
        ec.set(p2p2, "DataRate", "5Mbps")

        # Create channel
        chan = ec.register_resource("ns3::PointToPointChannel")
        ec.set(chan, "Delay", "2ms")

        ec.register_connection(chan, p2p1)
        ec.register_connection(chan, p2p2)

        ### create applications
        udp_perf = ec.register_resource("linux::ns3::dce::Application")
        ec.set(udp_perf, "binary", "udp-perf")
        ec.set(udp_perf, "stackSize", 1 << 20)
        ec.set(udp_perf, "arguments", "--duration=10;--nodes=2")
        ec.set(udp_perf, "StartTime", "1s")
        ec.set(udp_perf, "StopTime", "20s")
        ec.register_connection(udp_perf, nsnode1)

        udp_perf_client = ec.register_resource("linux::ns3::dce::Application")
        ec.set(udp_perf_client, "binary", "udp-perf")
        ec.set(udp_perf_client, "stackSize", 1 << 20)
        ec.set(udp_perf_client, "arguments",
               "--client;--nodes=2;--host=10.0.0.1;--duration=10")
        ec.set(udp_perf_client, "StartTime", "2s")
        ec.set(udp_perf_client, "StopTime", "20s")
        ec.register_connection(udp_perf_client, nsnode2)

        filepath = ec.save(dirpath)

        ec.deploy()

        ec.wait_finished([udp_perf_client])

        # Give time to flush the streams
        import time
        time.sleep(5)

        expected = "udp-perf --duration=10 --nodes=2"
        cmdline = ec.trace(udp_perf, "cmdline")
        self.assertTrue(cmdline.find(expected) > -1, cmdline)

        expected = "Start Time: NS3 Time:          1s ("
        status = ec.trace(udp_perf, "status")
        self.assertTrue(status.find(expected) > -1, status)

        expected = "received=1500 bytes, 1 reads (@1500 bytes) 1500"
        stdout = ec.trace(udp_perf, "stdout")
        self.assertTrue(stdout.find(expected) > -1, stdout)

        ec.shutdown()

        # Load serialized experiment
        ec2 = ExperimentController.load(filepath)

        ec2.deploy()
        ec2.wait_finished([udp_perf_client])

        # Give time to flush the streams
        time.sleep(5)

        self.assertEquals(len(ec.resources), len(ec2.resources))

        expected = "udp-perf --duration=10 --nodes=2"
        cmdline = ec2.trace(udp_perf, "cmdline")
        self.assertTrue(cmdline.find(expected) > -1, cmdline)

        expected = "Start Time: NS3 Time:          1s ("
        status = ec2.trace(udp_perf, "status")
        self.assertTrue(status.find(expected) > -1, status)

        expected = "received=1500 bytes, 1 reads (@1500 bytes) 1500"
        stdout = ec2.trace(udp_perf, "stdout")
        self.assertTrue(stdout.find(expected) > -1, stdout)

        ec2.shutdown()

        shutil.rmtree(dirpath)

コード例 #44

0

ファイルを表示

    def t_traces(self, host, user):

        ec = ExperimentController(exp_id="test-fib-traces")

        node1 = ec.register_resource("linux::Node")
        ec.set(node1, "hostname", host)
        ec.set(node1, "username", user)
        ec.set(node1, "cleanExperiment", True)
        ec.set(node1, "cleanProcesses", True)

        ccnd1 = ec.register_resource("linux::CCND")
        ec.register_connection(ccnd1, node1)

        entry1 = ec.register_resource("linux::FIBEntry")
        ec.set(entry1, "host", self.target)
        ec.enable_trace(entry1, "ping")
        ec.enable_trace(entry1, "mtr")
        ec.register_connection(entry1, ccnd1)

        node2 = ec.register_resource("linux::Node")
        ec.set(node2, "hostname", self.target)
        ec.set(node2, "username", self.fedora_user)
        ec.set(node2, "cleanExperiment", True)
        ec.set(node2, "cleanProcesses", True)

        ccnd2 = ec.register_resource("linux::CCND")
        ec.register_connection(ccnd2, node2)

        entry2 = ec.register_resource("linux::FIBEntry")
        ec.set(entry2, "host", host)
        ec.register_connection(entry2, ccnd2)

        ec.deploy()

        ec.wait_started([ccnd1, ccnd2])

        stdout = ec.trace(entry1, "ping")
        expected = "icmp_seq=1"
        self.assertTrue(stdout.find(expected) > -1)

        stdout = ec.trace(entry1, "mtr")
        expected = "1."
        self.assertTrue(stdout.find(expected) > -1)

        ec.shutdown()

コード例 #45

0

ファイルを表示

ファイル: omf6_vlc_normal_case.py プロジェクト: phiros/nepi

    def test_deploy(self):
        ec = ExperimentController(exp_id = "5421" )

        self.node1 = ec.register_resource("omf::Node")
        ec.set(self.node1, 'hostname', 'wlab12')
        ec.set(self.node1, 'xmppUser', "nepi")
        ec.set(self.node1, 'xmppServer', "xmpp-plexus.onelab.eu")
        ec.set(self.node1, 'xmppPort', "5222")
        ec.set(self.node1, 'xmppPassword', "1234")
        
        self.iface1 = ec.register_resource("omf::WifiInterface")
        ec.set(self.iface1, 'name', "wlan0")
        ec.set(self.iface1, 'mode', "adhoc")
        ec.set(self.iface1, 'hw_mode', "g")
        ec.set(self.iface1, 'essid', "vlcexp")
        ec.set(self.iface1, 'ip', "10.0.0.17/24")
        
        self.channel = ec.register_resource("omf::Channel")
        ec.set(self.channel, 'channel', "6")
        ec.set(self.channel, 'xmppUser', "nepi")
        ec.set(self.channel, 'xmppServer', "xmpp-plexus.onelab.eu")
        ec.set(self.channel, 'xmppPort', "5222")
        ec.set(self.channel, 'xmppPassword', "1234")
        
        self.app1 = ec.register_resource("omf::Application")
        ec.set(self.app1, 'appid', 'Vlc#1')
        ec.set(self.app1, 'command', "/opt/vlc-1.1.13/cvlc /opt/10-by-p0d.avi --sout '#rtp{dst=10.0.0.37,port=1234,mux=ts}'")
        ec.set(self.app1, 'env', "DISPLAY=localhost:10.0 XAUTHORITY=/root/.Xauthority")

        self.app2 = ec.register_resource("omf::Application")
        ec.set(self.app2, 'appid', 'Test#1')
        ec.set(self.app2, 'command', "/usr/bin/test -1")
        ec.set(self.app2, 'env', " ")

        self.app3 = ec.register_resource("omf::Application")
        ec.set(self.app3, 'appid', 'Test#2')
        ec.set(self.app3, 'command', "/usr/bin/test -2")
        ec.set(self.app3, 'env', " ")

        self.app4 = ec.register_resource("omf::Application")
        ec.set(self.app4, 'appid', 'Test#3')
        ec.set(self.app4, 'command', "/usr/bin/test -3")
        ec.set(self.app4, 'env', " ")

        self.app5 = ec.register_resource("omf::Application")
        ec.set(self.app5, 'appid', 'Kill#2')
        ec.set(self.app5, 'command', "/usr/bin/killall vlc")
        ec.set(self.app5, 'env', " ")

        ec.register_connection(self.app1, self.node1)
        ec.register_connection(self.app2, self.node1)
        ec.register_connection(self.app3, self.node1)
        ec.register_connection(self.app4, self.node1)
        ec.register_connection(self.app5, self.node1)
        ec.register_connection(self.node1, self.iface1)
        ec.register_connection(self.iface1, self.channel)

        ec.register_condition(self.app2, ResourceAction.START, self.app1, ResourceState.STARTED , "3s")
        ec.register_condition(self.app3, ResourceAction.START, self.app2, ResourceState.STARTED , "2s")
        ec.register_condition(self.app4, ResourceAction.START, self.app3, ResourceState.STARTED , "3s")
        ec.register_condition(self.app5, ResourceAction.START, [self.app3, self.app2], ResourceState.STARTED , "2s")
        ec.register_condition(self.app5, ResourceAction.START, self.app1, ResourceState.STARTED , "25s")

        ec.register_condition([self.app1, self.app2, self.app3,self.app4, self.app5], ResourceAction.STOP, self.app5, ResourceState.STARTED , "1s")

        ec.deploy()

        ec.wait_finished([self.app1, self.app2, self.app3,self.app4, self.app5])

        self.assertGreaterEqual(round(tdiffsec(ec.get_resource(self.app2).start_time, ec.get_resource(self.app1).start_time),0), 3.0)
        self.assertGreaterEqual(round(tdiffsec(ec.get_resource(self.app3).start_time, ec.get_resource(self.app2).start_time),0), 2.0)
        self.assertGreaterEqual(round(tdiffsec(ec.get_resource(self.app4).start_time, ec.get_resource(self.app3).start_time),0), 3.0)
        self.assertGreaterEqual(round(tdiffsec(ec.get_resource(self.app5).start_time, ec.get_resource(self.app3).start_time),0), 2.0)
        self.assertGreaterEqual(round(tdiffsec(ec.get_resource(self.app5).start_time, ec.get_resource(self.app1).start_time),0), 25.0)

        self.assertEquals(ec.get_resource(self.node1).state, ResourceState.STARTED)
        self.assertEquals(ec.get_resource(self.iface1).state, ResourceState.STARTED)
        self.assertEquals(ec.get_resource(self.channel).state, ResourceState.STARTED)
        self.assertEquals(ec.get_resource(self.app1).state, ResourceState.STOPPED)
        self.assertEquals(ec.get_resource(self.app2).state, ResourceState.STOPPED)
        self.assertEquals(ec.get_resource(self.app3).state, ResourceState.STOPPED)
        self.assertEquals(ec.get_resource(self.app4).state, ResourceState.STOPPED)
        self.assertEquals(ec.get_resource(self.app5).state, ResourceState.STOPPED)

        ec.shutdown()

        self.assertEquals(ec.get_resource(self.node1).state, ResourceState.RELEASED)
        self.assertEquals(ec.get_resource(self.iface1).state, ResourceState.RELEASED)
        self.assertEquals(ec.get_resource(self.channel).state, ResourceState.RELEASED)
        self.assertEquals(ec.get_resource(self.app1).state, ResourceState.RELEASED)
        self.assertEquals(ec.get_resource(self.app2).state, ResourceState.RELEASED)
        self.assertEquals(ec.get_resource(self.app3).state, ResourceState.RELEASED)
        self.assertEquals(ec.get_resource(self.app4).state, ResourceState.RELEASED)
        self.assertEquals(ec.get_resource(self.app5).state, ResourceState.RELEASED)

コード例 #46

0

ファイルを表示

ファイル: nitos_omf6_ping.py プロジェクト: phiros/nepi

        type="str")
parser.add_option("-s", "--slice-name", dest="slicename", 
        help="Nitos slice name", type="str")
(options, args) = parser.parse_args()

nodex = options.nodex
nodez = options.nodez
slicename = options.slicename
chan = options.channel

# Create the EC
ec = ExperimentController(exp_id="nitos_omf6_ping")

# Create and Configure the Nodes
node1 = ec.register_resource("omf::Node")
ec.set(node1, "hostname", nodex)
ec.set(node1, "xmppUser", slicename)
ec.set(node1, "xmppServer", "nitlab.inf.uth.gr")
ec.set(node1, "xmppPort", "5222")
ec.set(node1, "xmppPassword", "1234")

# Create and Configure the Interfaces
iface1 = ec.register_resource("omf::WifiInterface")
ec.set(iface1, "name", "wlan0")
ec.set(iface1, "mode", "adhoc")
ec.set(iface1, "hw_mode", "g")
ec.set(iface1, "essid", "ping")
ec.set(iface1, "ip", "192.168.0.%s/24" % nodex[-2:]) 
ec.register_connection(node1, iface1)

# Create and Configure the Nodes

コード例 #47

0

ファイルを表示

ファイル: omf6_vlc_normal_case.py プロジェクト: phiros/nepi

class OMFEachTestCase(unittest.TestCase):
    def setUp(self):
        self.ec = ExperimentController(exp_id = "99999")

        self.node1 = self.ec.register_resource("omf::Node")
        self.ec.set(self.node1, 'hostname', 'wlab12')
        self.ec.set(self.node1, 'xmppUser', "nepi")
        self.ec.set(self.node1, 'xmppServer', "xmpp-plexus.onelab.eu")
        self.ec.set(self.node1, 'xmppPort', "5222")
        self.ec.set(self.node1, 'xmppPassword', "1234")
        
        self.iface1 = self.ec.register_resource("omf::WifiInterface")
        self.ec.set(self.iface1, 'name', "wlan0")
        self.ec.set(self.iface1, 'mode', "adhoc")
        self.ec.set(self.iface1, 'hw_mode', "g")
        self.ec.set(self.iface1, 'essid', "vlcexp")
        self.ec.set(self.iface1, 'ip', "10.0.0.17/24")
        
        self.channel = self.ec.register_resource("omf::Channel")
        self.ec.set(self.channel, 'channel', "6")
        self.ec.set(self.channel, 'xmppUser', "nepi")
        self.ec.set(self.channel, 'xmppServer', "xmpp-plexus.onelab.eu")
        self.ec.set(self.channel, 'xmppPort', "5222")
        self.ec.set(self.channel, 'xmppPassword', "1234")
        
        self.app1 = self.ec.register_resource("omf::Application")
        self.ec.set(self.app1, 'appid', 'Vlc#1')
        self.ec.set(self.app1, 'command', "/opt/vlc-1.1.13/cvlc /opt/10-by-p0d.avi --sout '#rtp{dst=10.0.0.37,port=1234,mux=ts}'")
        self.ec.set(self.app1, 'env', "DISPLAY=localhost:10.0 XAUTHORITY=/root/.Xauthority")

        self.app2 = self.ec.register_resource("omf::Application")

        self.app3 = self.ec.register_resource("omf::Application")

        self.app4 = self.ec.register_resource("omf::Application")

        self.app5 = self.ec.register_resource("omf::Application")

        self.ec.register_connection(self.app1, self.node1)
        self.ec.register_connection(self.app2, self.node1)
        self.ec.register_connection(self.app3, self.node1)
        self.ec.register_connection(self.app4, self.node1)
        self.ec.register_connection(self.app5, self.node1)
        self.ec.register_connection(self.node1, self.iface1)
        self.ec.register_connection(self.iface1, self.channel)

        self.ec.register_condition(self.app2, ResourceAction.START, self.app1, ResourceState.STARTED , "3s")
        self.ec.register_condition(self.app3, ResourceAction.START, self.app2, ResourceState.STARTED , "2s")
        self.ec.register_condition(self.app4, ResourceAction.START, self.app3, ResourceState.STARTED , "3s")
        self.ec.register_condition(self.app5, ResourceAction.START, [self.app3, self.app2], ResourceState.STARTED , "2s")
        self.ec.register_condition(self.app5, ResourceAction.START, self.app1, ResourceState.STARTED , "25s")

        self.ec.register_condition([self.app1, self.app2, self.app3,self.app4, self.app5], ResourceAction.STOP, self.app5, ResourceState.STARTED , "1s")

    def tearDown(self):
        self.ec.shutdown()

    def test_creation_and_configuration_node(self):
        self.assertEquals(self.ec.get(self.node1, 'hostname'), 'wlab12')
        self.assertEquals(self.ec.get(self.node1, 'xmppUser'), 'nepi')
        self.assertEquals(self.ec.get(self.node1, 'xmppServer'), 'xmpp-plexus.onelab.eu')
        self.assertEquals(self.ec.get(self.node1, 'xmppPort'), '5222')
        self.assertEquals(self.ec.get(self.node1, 'xmppPassword'), '1234')
        self.assertEquals(self.ec.get(self.node1, 'version'), '6')


    def test_creation_and_configuration_interface(self):
        self.assertEquals(self.ec.get(self.iface1, 'name'), 'wlan0')
        self.assertEquals(self.ec.get(self.iface1, 'mode'), 'adhoc')
        self.assertEquals(self.ec.get(self.iface1, 'hw_mode'), 'g')
        self.assertEquals(self.ec.get(self.iface1, 'essid'), 'vlcexp')
        self.assertEquals(self.ec.get(self.iface1, 'ip'), '10.0.0.17/24')
        self.assertEquals(self.ec.get(self.iface1, 'version'), '6')

    def test_creation_and_configuration_channel(self):
        self.assertEquals(self.ec.get(self.channel, 'channel'), '6')
        self.assertEquals(self.ec.get(self.channel, 'xmppUser'), 'nepi')
        self.assertEquals(self.ec.get(self.channel, 'xmppServer'), 'xmpp-plexus.onelab.eu')
        self.assertEquals(self.ec.get(self.channel, 'xmppPort'), '5222')
        self.assertEquals(self.ec.get(self.channel, 'xmppPassword'), '1234')
        self.assertEquals(self.ec.get(self.channel, 'version'), '6')


    def test_creation_and_configuration_application(self):
        self.assertEquals(self.ec.get(self.app1, 'appid'), 'Vlc#1')
        self.assertEquals(self.ec.get(self.app1, 'command'), "/opt/vlc-1.1.13/cvlc /opt/10-by-p0d.avi --sout '#rtp{dst=10.0.0.37,port=1234,mux=ts}'")
        self.assertEquals(self.ec.get(self.app1, 'env'), 'DISPLAY=localhost:10.0 XAUTHORITY=/root/.Xauthority')
        self.assertEquals(self.ec.get(self.app1, 'version'), '6')

    def test_connection(self):
        self.assertEquals(len(self.ec.get_resource(self.node1).connections), 6)
        self.assertEquals(len(self.ec.get_resource(self.iface1).connections), 2)
        self.assertEquals(len(self.ec.get_resource(self.channel).connections), 1)
        self.assertEquals(len(self.ec.get_resource(self.app1).connections), 1)
        self.assertEquals(len(self.ec.get_resource(self.app2).connections), 1)

    def test_condition(self):
        self.assertEquals(len(self.ec.get_resource(self.app1).conditions[ResourceAction.STOP]), 1)
        self.assertEquals(len(self.ec.get_resource(self.app2).conditions[ResourceAction.START]), 1)
        self.assertEquals(len(self.ec.get_resource(self.app3).conditions[ResourceAction.START]), 1)
        self.assertEquals(len(self.ec.get_resource(self.app4).conditions[ResourceAction.STOP]), 1)
        self.assertEquals(len(self.ec.get_resource(self.app5).conditions[ResourceAction.START]), 2)

コード例 #48

0

ファイルを表示

ファイル: ccn_simple_transfer.py プロジェクト: phiros/nepi

hostname1 = options.hostname1
hostname2 = options.hostname2
pl_slice = options.pl_slice
pl_ssh_key = options.pl_ssh_key
pl_user = options.pl_user
pl_password = options.pl_password

## Create the experiment controller
ec = ExperimentController(exp_id = "pl_ccn_simple_transfer")

##### CONFIGURING NODE 1

## Register node 1
node1 = ec.register_resource("planetlab::Node")
# Set the hostname of the first node to use for the experiment
ec.set(node1, "hostname", hostname1)
# username should be your SSH user 
ec.set(node1, "username", pl_slice)
# Path to the SSH private key
ec.set(node1, "identity", pl_ssh_key)
# Planetlab web site user and password
ec.set(node1, "pluser", pl_user)
ec.set(node1, "plpassword", pl_password)
# Clean all files, results, etc, from previous experiments wit the same exp_id
ec.set(node1, "cleanExperiment", True)
# Kill all running processes in the node before running the experiment
ec.set(node1, "cleanProcesses", True)

## Register a CCN daemon in node 1
ccnd1 = ec.register_resource("linux::CCND")
# Set ccnd log level to 7

コード例 #49

0

ファイルを表示

platform = "ns3"

# Set the number of threads.
# NOTE: This must be done before instantiating the EC.
os.environ["NEPI_NTHREADS"] = str(thread_count)

# Create Experiment Controller:
exp_id = "%s_bench" % platform
ec = ExperimentController(exp_id)

# Add the physical node in which to run the simulation
lnode = add_linux_node(ec, clean_run)

# Add a simulation resource
simu = ec.register_resource("linux::ns3::Simulation")
ec.set(simu, "verbose", True)
ec.register_connection(simu, lnode)

# Add simulated nodes and applications
nodes = list()
apps = list()
devs = list()

ips = dict()

prefix = "16"
base_addr = "10.0.0.0/%s" % prefix
net = ipaddr.IPv4Network(base_addr)
host_itr = net.iterhosts()

for i in xrange(node_count):

コード例 #50

0

ファイルを表示

ファイル: fibentry.py プロジェクト: phiros/nepi

    def t_traces(self, host, user):

        ec = ExperimentController(exp_id = "test-fib-traces")
        
        node1 = ec.register_resource("linux::Node")
        ec.set(node1, "hostname", host)
        ec.set(node1, "username", user)
        ec.set(node1, "cleanExperiment", True)
        ec.set(node1, "cleanProcesses", True)

        ccnd1 = ec.register_resource("linux::CCND")
        ec.register_connection(ccnd1, node1)

        entry1 = ec.register_resource("linux::FIBEntry")
        ec.set(entry1, "host", self.target)
        ec.enable_trace(entry1, "ping")
        ec.enable_trace(entry1, "mtr")
        ec.register_connection(entry1, ccnd1)
 
        node2 = ec.register_resource("linux::Node")
        ec.set(node2, "hostname", self.target)
        ec.set(node2, "username", self.fedora_user)
        ec.set(node2, "cleanExperiment", True)
        ec.set(node2, "cleanProcesses", True)

        ccnd2 = ec.register_resource("linux::CCND")
        ec.register_connection(ccnd2, node2)

        entry2 = ec.register_resource("linux::FIBEntry")
        ec.set(entry2, "host", host)
        ec.register_connection(entry2, ccnd2)

        ec.deploy()

        ec.wait_started([ccnd1, ccnd2])

        stdout = ec.trace(entry1, "ping")
        expected = "icmp_seq=1" 
        self.assertTrue(stdout.find(expected) > -1)

        stdout = ec.trace(entry1, "mtr")
        expected = "1." 
        self.assertTrue(stdout.find(expected) > -1)

        ec.shutdown()

コード例 #51

0

ファイルを表示

iface_center = create_omf_iface(ec, "192.168.0.1/24", wifi_center)
iface_client1 = create_omf_iface(ec, "192.168.0.2/24", client1)
iface_client2 = create_omf_iface(ec, "192.168.0.3/24", client2)
iface_client3 = create_omf_iface(ec, "192.168.0.4/24", client3)
iface_client4 = create_omf_iface(ec, "192.168.0.5/24", client4)
iface_client5 = create_omf_iface(ec, "192.168.0.6/24", client5)

omf_ifaces = [
    iface_center, iface_client1, iface_client2, iface_client3, iface_client4,
    iface_client5
]

# Register channel

chan = ec.register_resource("omf::Channel")
ec.set(chan, 'channel', "6")

# Register connection ifaces - channel

ec.register_connection(iface_center, chan)
ec.register_connection(iface_client1, chan)
ec.register_connection(iface_client2, chan)
ec.register_connection(iface_client3, chan)
ec.register_connection(iface_client4, chan)
ec.register_connection(iface_client5, chan)

resources = [video_server] + omf_nodes + omf_ifaces + [chan]

# Deploy physical resources and wait until they become provisioned

ec.deploy(resources)

コード例 #52

0

ファイルを表示

class OMFVLCWrongCaseWithNonCritical(unittest.TestCase):

    id = 2000

    def setUp(self):
        self.ec = ExperimentController(
            exp_id=str(OMFVLCWrongCaseWithNonCritical.id))
        OMFVLCWrongCaseWithNonCritical.id += 1

        self.node1 = self.ec.register_resource("omf::Node")
        self.ec.set(self.node1, 'hostname', 'omf.plexus.wlab17')
        self.ec.set(self.node1, 'xmppUser', "nepi")
        self.ec.set(self.node1, 'xmppServer', "xmpp-plexus.onelab.eu")
        self.ec.set(self.node1, 'xmppPort', "5222")
        self.ec.set(self.node1, 'xmppPassword', "1234")
        self.ec.set(self.node1, 'version', "5")

        self.iface1 = self.ec.register_resource("omf::WifiInterface")
        self.ec.set(self.iface1, 'name', "wlan0")
        self.ec.set(self.iface1, 'mode', "adhoc")
        self.ec.set(self.iface1, 'hw_mode', "g")
        self.ec.set(self.iface1, 'essid', "vlcexp")
        self.ec.set(self.iface1, 'ip', "10.0.0.17/24")
        self.ec.set(self.iface1, 'version', "5")

        self.app1 = self.ec.register_resource("omf::Application")
        self.ec.set(self.app1, 'appid', 'Kill#1')
        self.ec.set(self.app1, 'command', "/usr/bin/test -1")
        self.ec.set(self.app1, 'env',
                    "DISPLAY=localhost:10.0 XAUTHORITY=/root/.Xauthority")
        self.ec.set(self.app1, 'version', "5")

        self.ec.register_connection(self.app1, self.node1)
        self.ec.register_connection(self.node1, self.iface1)

    def test_deploy_with_node_nc(self):
        self.node2 = self.ec.register_resource("omf::Node")
        self.ec.set(self.node2, "critical", False)
        self.ec.set(self.node2, 'version', "5")

        self.iface2 = self.ec.register_resource("omf::WifiInterface")
        self.ec.set(self.iface2, 'name', "wlan0")
        self.ec.set(self.iface2, 'mode', "adhoc")
        self.ec.set(self.iface2, 'hw_mode', "g")
        self.ec.set(self.iface2, 'essid', "vlcexp")
        self.ec.set(self.iface2, 'ip', "10.0.0.37/24")
        self.ec.set(self.iface2, 'version', "5")

        self.channel = self.ec.register_resource("omf::Channel")
        self.ec.set(self.channel, 'channel', "6")
        self.ec.set(self.channel, 'xmppUser', "nepi")
        self.ec.set(self.channel, 'xmppServer', "xmpp-plexus.onelab.eu")
        self.ec.set(self.channel, 'xmppPort', "5222")
        self.ec.set(self.channel, 'xmppPassword', "1234")
        self.ec.set(self.channel, 'version', "5")

        self.ec.register_connection(self.iface1, self.channel)
        self.ec.register_connection(self.node2, self.iface2)
        self.ec.register_connection(self.iface2, self.channel)

        self.ec.register_condition([self.app1], ResourceAction.STOP, self.app1,
                                   ResourceState.STARTED, "5s")

        self.ec.deploy()

        self.ec.wait_finished([self.app1])

        self.assertEquals(
            self.ec.get_resource(self.node2).state, ResourceState.FAILED)
        self.assertEquals(
            self.ec.get_resource(self.iface2).state, ResourceState.FAILED)

        self.ec.shutdown()

        self.assertEquals(
            self.ec.get_resource(self.node1).state, ResourceState.RELEASED)
        self.assertEquals(
            self.ec.get_resource(self.node2).state, ResourceState.RELEASED)
        self.assertEquals(
            self.ec.get_resource(self.iface1).state, ResourceState.RELEASED)
        self.assertEquals(
            self.ec.get_resource(self.iface2).state, ResourceState.RELEASED)
        self.assertEquals(
            self.ec.get_resource(self.channel).state, ResourceState.RELEASED)
        self.assertEquals(
            self.ec.get_resource(self.app1).state, ResourceState.RELEASED)

    def test_deploy_with_node_and_iface_nc(self):
        self.node2 = self.ec.register_resource("omf::Node")
        self.ec.set(self.node2, "critical", False)
        self.ec.set(self.node2, 'version', "5")

        self.iface2 = self.ec.register_resource("omf::WifiInterface")
        self.ec.set(self.node2, "critical", False)
        self.ec.set(self.iface2, 'name', "wlan0")
        self.ec.set(self.iface2, 'mode', "adhoc")
        self.ec.set(self.iface2, 'hw_mode', "g")
        self.ec.set(self.iface2, 'essid', "vlcexp")
        self.ec.set(self.iface2, 'ip', "10.0.0.37/24")
        self.ec.set(self.iface2, 'version', "5")

        self.channel = self.ec.register_resource("omf::Channel")
        self.ec.set(self.channel, 'channel', "6")
        self.ec.set(self.channel, 'xmppUser', "nepi")
        self.ec.set(self.channel, 'xmppServer', "xmpp-plexus.onelab.eu")
        self.ec.set(self.channel, 'xmppPort', "5222")
        self.ec.set(self.channel, 'xmppPassword', "1234")
        self.ec.set(self.channel, 'version', "5")

        self.ec.register_connection(self.iface1, self.channel)
        self.ec.register_connection(self.node2, self.iface2)
        self.ec.register_connection(self.iface2, self.channel)

        self.ec.register_condition([self.app1], ResourceAction.STOP, self.app1,
                                   ResourceState.STARTED, "5s")

        self.ec.deploy()

        self.ec.wait_finished([self.app1])

        self.assertEquals(
            self.ec.get_resource(self.node2).state, ResourceState.FAILED)
        self.assertEquals(
            self.ec.get_resource(self.iface2).state, ResourceState.FAILED)

        self.ec.shutdown()

        self.assertEquals(
            self.ec.get_resource(self.node1).state, ResourceState.RELEASED)
        self.assertEquals(
            self.ec.get_resource(self.node2).state, ResourceState.RELEASED)
        self.assertEquals(
            self.ec.get_resource(self.iface1).state, ResourceState.RELEASED)
        self.assertEquals(
            self.ec.get_resource(self.iface2).state, ResourceState.RELEASED)
        self.assertEquals(
            self.ec.get_resource(self.channel).state, ResourceState.RELEASED)
        self.assertEquals(
            self.ec.get_resource(self.app1).state, ResourceState.RELEASED)

    def test_deploy_with_node_iface_channel_nc(self):
        self.node2 = self.ec.register_resource("omf::Node")
        self.ec.set(self.node2, "critical", False)
        self.ec.set(self.node2, 'hostname', 'omf.plexus.wlab37')
        self.ec.set(self.node2, 'version', "5")

        self.iface2 = self.ec.register_resource("omf::WifiInterface")
        self.ec.set(self.node2, "critical", False)
        self.ec.set(self.iface2, 'name', "wlan0")
        self.ec.set(self.iface2, 'mode', "adhoc")
        self.ec.set(self.iface2, 'hw_mode', "g")
        self.ec.set(self.iface2, 'essid', "vlcexp")
        self.ec.set(self.iface2, 'ip', "10.0.0.37/24")
        self.ec.set(self.iface2, 'version', "5")

        self.channel = self.ec.register_resource("omf::Channel")
        self.ec.set(self.channel, 'channel', "6")
        self.ec.set(self.channel, "critical", False)
        self.ec.set(self.channel, 'version', "5")

        self.ec.register_connection(self.iface1, self.channel)
        self.ec.register_connection(self.node2, self.iface2)
        self.ec.register_connection(self.iface2, self.channel)

        self.ec.register_condition([self.app1], ResourceAction.STOP, self.app1,
                                   ResourceState.STARTED, "10s")

        self.ec.deploy()

        self.ec.wait_finished([self.app1])

        self.assertEquals(
            self.ec.get_resource(self.node2).state, ResourceState.FAILED)
        self.assertEquals(
            self.ec.get_resource(self.iface2).state, ResourceState.FAILED)
        self.assertEquals(
            self.ec.get_resource(self.channel).state, ResourceState.FAILED)

        self.ec.shutdown()

        self.assertEquals(
            self.ec.get_resource(self.node1).state, ResourceState.RELEASED)
        self.assertEquals(
            self.ec.get_resource(self.node2).state, ResourceState.RELEASED)
        self.assertEquals(
            self.ec.get_resource(self.iface1).state, ResourceState.RELEASED)
        self.assertEquals(
            self.ec.get_resource(self.iface2).state, ResourceState.RELEASED)
        self.assertEquals(
            self.ec.get_resource(self.channel).state, ResourceState.RELEASED)
        self.assertEquals(
            self.ec.get_resource(self.app1).state, ResourceState.RELEASED)

    def test_deploy_with_app_nc(self):
        self.node2 = self.ec.register_resource("omf::Node")
        self.ec.set(self.node2, 'hostname', 'omf.plexus.wlab37')
        self.ec.set(self.node2, 'xmppUser', "nepi")
        self.ec.set(self.node2, 'xmppServer', "xmpp-plexus.onelab.eu")
        self.ec.set(self.node2, 'xmppPort', "5222")
        self.ec.set(self.node2, 'xmppPassword', "1234")
        self.ec.set(self.node2, 'version', "5")

        self.iface2 = self.ec.register_resource("omf::WifiInterface")
        self.ec.set(self.iface2, 'name', "wlan0")
        self.ec.set(self.iface2, 'mode', "adhoc")
        self.ec.set(self.iface2, 'hw_mode', "g")
        self.ec.set(self.iface2, 'essid', "vlcexp")
        self.ec.set(self.iface2, 'ip', "10.0.0.37/24")
        self.ec.set(self.iface2, 'version', "5")

        self.channel = self.ec.register_resource("omf::Channel")
        self.ec.set(self.channel, 'channel', "6")
        self.ec.set(self.channel, 'xmppUser', "nepi")
        self.ec.set(self.channel, 'xmppServer', "xmpp-plexus.onelab.eu")
        self.ec.set(self.channel, 'xmppPort', "5222")
        self.ec.set(self.channel, 'xmppPassword', "1234")
        self.ec.set(self.channel, 'version', "5")

        self.app2 = self.ec.register_resource("omf::Application")
        self.ec.set(self.app2, "critical", False)
        self.ec.set(self.app2, 'appid', 'Kill#22')
        self.ec.set(self.app2, 'version', "5")

        self.ec.register_connection(self.iface1, self.channel)
        self.ec.register_connection(self.node2, self.iface2)
        self.ec.register_connection(self.iface2, self.channel)
        self.ec.register_connection(self.app2, self.node2)

        self.ec.register_condition(self.app2, ResourceAction.START, self.app1,
                                   ResourceState.STARTED, "6s")
        self.ec.register_condition([self.app1, self.app2], ResourceAction.STOP,
                                   self.app1, ResourceState.STARTED, "10s")

        self.ec.deploy()

        self.ec.wait_finished([self.app1, self.app2])

        self.assertEquals(
            self.ec.get_resource(self.app1).state, ResourceState.STOPPED)
        self.assertEquals(
            self.ec.get_resource(self.app2).state, ResourceState.FAILED)

        self.ec.shutdown()

        self.assertEquals(
            self.ec.get_resource(self.node1).state, ResourceState.RELEASED)
        self.assertEquals(
            self.ec.get_resource(self.node2).state, ResourceState.RELEASED)
        self.assertEquals(
            self.ec.get_resource(self.iface1).state, ResourceState.RELEASED)
        self.assertEquals(
            self.ec.get_resource(self.iface2).state, ResourceState.RELEASED)
        self.assertEquals(
            self.ec.get_resource(self.channel).state, ResourceState.RELEASED)
        self.assertEquals(
            self.ec.get_resource(self.app1).state, ResourceState.RELEASED)
        self.assertEquals(
            self.ec.get_resource(self.app2).state, ResourceState.RELEASED)

    def test_deploy_with_all_nc_and_app_critical(self):
        self.node2 = self.ec.register_resource("omf::Node")
        self.ec.set(self.node2, "critical", False)
        self.ec.set(self.node2, 'hostname', 'omf.plexus.wlab37')
        self.ec.set(self.node2, 'version', "5")

        self.iface2 = self.ec.register_resource("omf::WifiInterface")
        self.ec.set(self.iface2, "critical", False)
        self.ec.set(self.iface2, 'version', "5")

        self.channel = self.ec.register_resource("omf::Channel")
        self.ec.set(self.channel, "critical", False)
        self.ec.set(self.channel, 'channel', "6")
        self.ec.set(self.channel, 'version', "5")

        self.app2 = self.ec.register_resource("omf::Application")
        self.ec.set(self.app2, 'appid', 'Kill#22')
        self.ec.set(self.app2, 'version', "5")

        self.ec.register_connection(self.iface1, self.channel)
        self.ec.register_connection(self.node2, self.iface2)
        self.ec.register_connection(self.iface2, self.channel)
        self.ec.register_connection(self.app2, self.node2)

        self.ec.register_condition(self.app2, ResourceAction.START, self.app1,
                                   ResourceState.STARTED, "6s")
        self.ec.register_condition([self.app1, self.app2], ResourceAction.STOP,
                                   self.app1, ResourceState.STARTED, "10s")

        self.ec.deploy()

        self.ec.wait_finished([self.app1, self.app2])

        self.assertEquals(
            self.ec.get_resource(self.app2).state, ResourceState.FAILED)

        self.ec.shutdown()

        self.assertEquals(
            self.ec.get_resource(self.node1).state, ResourceState.RELEASED)
        self.assertEquals(
            self.ec.get_resource(self.node2).state, ResourceState.RELEASED)
        self.assertEquals(
            self.ec.get_resource(self.iface1).state, ResourceState.RELEASED)
        self.assertEquals(
            self.ec.get_resource(self.iface2).state, ResourceState.RELEASED)
        self.assertEquals(
            self.ec.get_resource(self.channel).state, ResourceState.RELEASED)
        self.assertEquals(
            self.ec.get_resource(self.app1).state, ResourceState.RELEASED)
        self.assertEquals(
            self.ec.get_resource(self.app2).state, ResourceState.RELEASED)

コード例 #53

0

ファイルを表示

    def t_dce_ccnpeek(self, host, user = None, identity = None):
        ec = ExperimentController(exp_id = "test-dce-ccnpeek")

        node = ec.register_resource("linux::Node")
        if host == "localhost":
            ec.set(node, "hostname", host)
        else:
            ec.set(node, "hostname", host)
            ec.set(node, "username", user)
            ec.set(node, "identity", identity)
        
        ec.set(node, "cleanProcesses", True)
        #ec.set(node, "cleanHome", True)

        simu = ec.register_resource("linux::ns3::Simulation")
        ec.set(simu, "verbose", True)
        ec.set(simu, "nsLog", "DceApplication")
        ec.register_connection(simu, node)

        nsnode = add_ns3_node(ec, simu)

        ### create applications
        ccnd = ec.register_resource("linux::ns3::dce::CCND")
        ec.set (ccnd, "stackSize", 1<<20)
        ec.set (ccnd, "StartTime", "1s")
        ec.register_connection(ccnd, nsnode)

        ccnpoke = ec.register_resource("linux::ns3::dce::CCNPoke")
        ec.set (ccnpoke, "contentName", "ccnx:/chunk0")
        ec.set (ccnpoke, "content", "DATA")
        ec.set (ccnpoke, "stackSize", 1<<20)
        ec.set (ccnpoke, "StartTime", "2s")
        ec.register_connection(ccnpoke, nsnode)

        ccnpeek = ec.register_resource("linux::ns3::dce::CCNPeek")
        ec.set (ccnpeek, "contentName", "ccnx:/chunk0")
        ec.set (ccnpeek, "stackSize", 1<<20)
        ec.set (ccnpeek, "StartTime", "4s")
        ec.set (ccnpeek, "StopTime", "20s")
        ec.register_connection(ccnpeek, nsnode)

        ec.deploy()

        ec.wait_finished([ccnpeek])

        expected = "ccnpeek ccnx:/chunk0"
        cmdline = ec.trace(ccnpeek, "cmdline")
        self.assertTrue(cmdline.find(expected) > -1, cmdline)

        expected = "Start Time: NS3 Time:          4s ("
        status = ec.trace(ccnpeek, "status")
        self.assertTrue(status.find(expected) > -1, status)

        expected = "DATA"
        stdout = ec.trace(ccnpeek, "stdout")
        self.assertTrue(stdout.find(expected) > -1, stdout)

        ec.shutdown()

コード例 #54

0

ファイルを表示

ファイル: omf5_vlc_wrong_non_critical.py プロジェクト: phiros/nepi

class OMFVLCWrongCaseWithNonCritical(unittest.TestCase):

    id = 2000

    def setUp(self):
        self.ec = ExperimentController(exp_id = str(OMFVLCWrongCaseWithNonCritical.id))
        OMFVLCWrongCaseWithNonCritical.id += 1

        self.node1 = self.ec.register_resource("omf::Node")
        self.ec.set(self.node1, 'hostname', 'omf.plexus.wlab17')
        self.ec.set(self.node1, 'xmppUser', "nepi")
        self.ec.set(self.node1, 'xmppServer', "xmpp-plexus.onelab.eu")
        self.ec.set(self.node1, 'xmppPort', "5222")
        self.ec.set(self.node1, 'xmppPassword', "1234")
        self.ec.set(self.node1, 'version', "5")
        
        self.iface1 = self.ec.register_resource("omf::WifiInterface")
        self.ec.set(self.iface1, 'name', "wlan0")
        self.ec.set(self.iface1, 'mode', "adhoc")
        self.ec.set(self.iface1, 'hw_mode', "g")
        self.ec.set(self.iface1, 'essid', "vlcexp")
        self.ec.set(self.iface1, 'ip', "10.0.0.17/24")
        self.ec.set(self.iface1, 'version', "5")

        self.app1 = self.ec.register_resource("omf::Application")
        self.ec.set(self.app1, 'appid', 'Kill#1')
        self.ec.set(self.app1, 'command', "/usr/bin/test -1")
        self.ec.set(self.app1, 'env', "DISPLAY=localhost:10.0 XAUTHORITY=/root/.Xauthority")
        self.ec.set(self.app1, 'version', "5")

        self.ec.register_connection(self.app1, self.node1)
        self.ec.register_connection(self.node1, self.iface1)

    def test_deploy_with_node_nc(self):
        self.node2 = self.ec.register_resource("omf::Node")
        self.ec.set(self.node2, "critical", False)
        self.ec.set(self.node2, 'version', "5")

        self.iface2 = self.ec.register_resource("omf::WifiInterface")
        self.ec.set(self.iface2, 'name', "wlan0")
        self.ec.set(self.iface2, 'mode', "adhoc")
        self.ec.set(self.iface2, 'hw_mode', "g")
        self.ec.set(self.iface2, 'essid', "vlcexp")
        self.ec.set(self.iface2, 'ip', "10.0.0.37/24")
        self.ec.set(self.iface2, 'version', "5")
        
        self.channel = self.ec.register_resource("omf::Channel")
        self.ec.set(self.channel, 'channel', "6")
        self.ec.set(self.channel, 'xmppUser', "nepi")
        self.ec.set(self.channel, 'xmppServer', "xmpp-plexus.onelab.eu")
        self.ec.set(self.channel, 'xmppPort', "5222")
        self.ec.set(self.channel, 'xmppPassword', "1234")
        self.ec.set(self.channel, 'version', "5")

        self.ec.register_connection(self.iface1, self.channel)
        self.ec.register_connection(self.node2, self.iface2)
        self.ec.register_connection(self.iface2, self.channel)

        self.ec.register_condition([self.app1], ResourceAction.STOP, self.app1, ResourceState.STARTED , "5s")

        self.ec.deploy()

        self.ec.wait_finished([self.app1])

        self.assertEquals(self.ec.get_resource(self.node2).state, ResourceState.FAILED)
        self.assertEquals(self.ec.get_resource(self.iface2).state, ResourceState.FAILED)

        self.ec.shutdown()

        self.assertEquals(self.ec.get_resource(self.node1).state, ResourceState.RELEASED)
        self.assertEquals(self.ec.get_resource(self.node2).state, ResourceState.RELEASED)
        self.assertEquals(self.ec.get_resource(self.iface1).state, ResourceState.RELEASED)
        self.assertEquals(self.ec.get_resource(self.iface2).state, ResourceState.RELEASED)
        self.assertEquals(self.ec.get_resource(self.channel).state, ResourceState.RELEASED)
        self.assertEquals(self.ec.get_resource(self.app1).state, ResourceState.RELEASED)

    def test_deploy_with_node_and_iface_nc(self):
        self.node2 = self.ec.register_resource("omf::Node")
        self.ec.set(self.node2, "critical", False)
        self.ec.set(self.node2, 'version', "5")

        self.iface2 = self.ec.register_resource("omf::WifiInterface")
        self.ec.set(self.node2, "critical", False)
        self.ec.set(self.iface2, 'name', "wlan0")
        self.ec.set(self.iface2, 'mode', "adhoc")
        self.ec.set(self.iface2, 'hw_mode', "g")
        self.ec.set(self.iface2, 'essid', "vlcexp")
        self.ec.set(self.iface2, 'ip', "10.0.0.37/24")
        self.ec.set(self.iface2, 'version', "5")
        
        self.channel = self.ec.register_resource("omf::Channel")
        self.ec.set(self.channel, 'channel', "6")
        self.ec.set(self.channel, 'xmppUser', "nepi")
        self.ec.set(self.channel, 'xmppServer', "xmpp-plexus.onelab.eu")
        self.ec.set(self.channel, 'xmppPort', "5222")
        self.ec.set(self.channel, 'xmppPassword', "1234")
        self.ec.set(self.channel, 'version', "5")

        self.ec.register_connection(self.iface1, self.channel)
        self.ec.register_connection(self.node2, self.iface2)
        self.ec.register_connection(self.iface2, self.channel)

        self.ec.register_condition([self.app1], ResourceAction.STOP, self.app1, ResourceState.STARTED , "5s")

        self.ec.deploy()

        self.ec.wait_finished([self.app1])

        self.assertEquals(self.ec.get_resource(self.node2).state, ResourceState.FAILED)
        self.assertEquals(self.ec.get_resource(self.iface2).state, ResourceState.FAILED)

        self.ec.shutdown()

        self.assertEquals(self.ec.get_resource(self.node1).state, ResourceState.RELEASED)
        self.assertEquals(self.ec.get_resource(self.node2).state, ResourceState.RELEASED)
        self.assertEquals(self.ec.get_resource(self.iface1).state, ResourceState.RELEASED)
        self.assertEquals(self.ec.get_resource(self.iface2).state, ResourceState.RELEASED)
        self.assertEquals(self.ec.get_resource(self.channel).state, ResourceState.RELEASED)
        self.assertEquals(self.ec.get_resource(self.app1).state, ResourceState.RELEASED)

    def test_deploy_with_node_iface_channel_nc(self):
        self.node2 = self.ec.register_resource("omf::Node")
        self.ec.set(self.node2, "critical", False)
        self.ec.set(self.node2, 'hostname', 'omf.plexus.wlab37')
        self.ec.set(self.node2, 'version', "5")

        self.iface2 = self.ec.register_resource("omf::WifiInterface")
        self.ec.set(self.node2, "critical", False)
        self.ec.set(self.iface2, 'name', "wlan0")
        self.ec.set(self.iface2, 'mode', "adhoc")
        self.ec.set(self.iface2, 'hw_mode', "g")
        self.ec.set(self.iface2, 'essid', "vlcexp")
        self.ec.set(self.iface2, 'ip', "10.0.0.37/24")
        self.ec.set(self.iface2, 'version', "5")
        
        self.channel = self.ec.register_resource("omf::Channel")
        self.ec.set(self.channel, 'channel', "6")
        self.ec.set(self.channel, "critical", False)
        self.ec.set(self.channel, 'version', "5")

        self.ec.register_connection(self.iface1, self.channel)
        self.ec.register_connection(self.node2, self.iface2)
        self.ec.register_connection(self.iface2, self.channel)

        self.ec.register_condition([self.app1], ResourceAction.STOP, self.app1, ResourceState.STARTED , "10s")

        self.ec.deploy()

        self.ec.wait_finished([self.app1])

        self.assertEquals(self.ec.get_resource(self.node2).state, ResourceState.FAILED)
        self.assertEquals(self.ec.get_resource(self.iface2).state, ResourceState.FAILED)
        self.assertEquals(self.ec.get_resource(self.channel).state, ResourceState.FAILED)

        self.ec.shutdown()

        self.assertEquals(self.ec.get_resource(self.node1).state, ResourceState.RELEASED)
        self.assertEquals(self.ec.get_resource(self.node2).state, ResourceState.RELEASED)
        self.assertEquals(self.ec.get_resource(self.iface1).state, ResourceState.RELEASED)
        self.assertEquals(self.ec.get_resource(self.iface2).state, ResourceState.RELEASED)
        self.assertEquals(self.ec.get_resource(self.channel).state, ResourceState.RELEASED)
        self.assertEquals(self.ec.get_resource(self.app1).state, ResourceState.RELEASED)

    def test_deploy_with_app_nc(self):
        self.node2 = self.ec.register_resource("omf::Node")
        self.ec.set(self.node2, 'hostname', 'omf.plexus.wlab37')
        self.ec.set(self.node2, 'xmppUser', "nepi")
        self.ec.set(self.node2, 'xmppServer', "xmpp-plexus.onelab.eu")
        self.ec.set(self.node2, 'xmppPort', "5222")
        self.ec.set(self.node2, 'xmppPassword', "1234")
        self.ec.set(self.node2, 'version', "5")

        self.iface2 = self.ec.register_resource("omf::WifiInterface")
        self.ec.set(self.iface2, 'name', "wlan0")
        self.ec.set(self.iface2, 'mode', "adhoc")
        self.ec.set(self.iface2, 'hw_mode', "g")
        self.ec.set(self.iface2, 'essid', "vlcexp")
        self.ec.set(self.iface2, 'ip', "10.0.0.37/24")
        self.ec.set(self.iface2, 'version', "5")
        
        self.channel = self.ec.register_resource("omf::Channel")
        self.ec.set(self.channel, 'channel', "6")
        self.ec.set(self.channel, 'xmppUser', "nepi")
        self.ec.set(self.channel, 'xmppServer', "xmpp-plexus.onelab.eu")
        self.ec.set(self.channel, 'xmppPort', "5222")
        self.ec.set(self.channel, 'xmppPassword', "1234")
        self.ec.set(self.channel, 'version', "5")

        self.app2 = self.ec.register_resource("omf::Application")
        self.ec.set(self.app2, "critical", False)
        self.ec.set(self.app2, 'appid', 'Kill#22')
        self.ec.set(self.app2, 'version', "5")

        self.ec.register_connection(self.iface1, self.channel)
        self.ec.register_connection(self.node2, self.iface2)
        self.ec.register_connection(self.iface2, self.channel)
        self.ec.register_connection(self.app2, self.node2)

        self.ec.register_condition(self.app2, ResourceAction.START, self.app1, ResourceState.STARTED , "6s")
        self.ec.register_condition([self.app1, self.app2], ResourceAction.STOP, self.app1, ResourceState.STARTED , "10s")

        self.ec.deploy()

        self.ec.wait_finished([self.app1, self.app2])

        self.assertEquals(self.ec.get_resource(self.app1).state, ResourceState.STOPPED)
        self.assertEquals(self.ec.get_resource(self.app2).state, ResourceState.FAILED)

        self.ec.shutdown()

        self.assertEquals(self.ec.get_resource(self.node1).state, ResourceState.RELEASED)
        self.assertEquals(self.ec.get_resource(self.node2).state, ResourceState.RELEASED)
        self.assertEquals(self.ec.get_resource(self.iface1).state, ResourceState.RELEASED)
        self.assertEquals(self.ec.get_resource(self.iface2).state, ResourceState.RELEASED)
        self.assertEquals(self.ec.get_resource(self.channel).state, ResourceState.RELEASED)
        self.assertEquals(self.ec.get_resource(self.app1).state, ResourceState.RELEASED)
        self.assertEquals(self.ec.get_resource(self.app2).state, ResourceState.RELEASED)

    def test_deploy_with_all_nc_and_app_critical(self):
        self.node2 = self.ec.register_resource("omf::Node")
        self.ec.set(self.node2, "critical", False)
        self.ec.set(self.node2, 'hostname', 'omf.plexus.wlab37')
        self.ec.set(self.node2, 'version', "5")

        self.iface2 = self.ec.register_resource("omf::WifiInterface")
        self.ec.set(self.iface2, "critical", False)
        self.ec.set(self.iface2, 'version', "5")
        
        self.channel = self.ec.register_resource("omf::Channel")
        self.ec.set(self.channel, "critical", False)
        self.ec.set(self.channel, 'channel', "6")
        self.ec.set(self.channel, 'version', "5")

        self.app2 = self.ec.register_resource("omf::Application")
        self.ec.set(self.app2, 'appid', 'Kill#22')
        self.ec.set(self.app2, 'version', "5")

        self.ec.register_connection(self.iface1, self.channel)
        self.ec.register_connection(self.node2, self.iface2)
        self.ec.register_connection(self.iface2, self.channel)
        self.ec.register_connection(self.app2, self.node2)

        self.ec.register_condition(self.app2, ResourceAction.START, self.app1, ResourceState.STARTED , "6s")
        self.ec.register_condition([self.app1, self.app2], ResourceAction.STOP, self.app1, ResourceState.STARTED , "10s")

        self.ec.deploy()

        self.ec.wait_finished([self.app1, self.app2])

        self.assertEquals(self.ec.get_resource(self.app2).state, ResourceState.FAILED)

        self.ec.shutdown()

        self.assertEquals(self.ec.get_resource(self.node1).state, ResourceState.RELEASED)
        self.assertEquals(self.ec.get_resource(self.node2).state, ResourceState.RELEASED)
        self.assertEquals(self.ec.get_resource(self.iface1).state, ResourceState.RELEASED)
        self.assertEquals(self.ec.get_resource(self.iface2).state, ResourceState.RELEASED)
        self.assertEquals(self.ec.get_resource(self.channel).state, ResourceState.RELEASED)
        self.assertEquals(self.ec.get_resource(self.app1).state, ResourceState.RELEASED)
        self.assertEquals(self.ec.get_resource(self.app2).state, ResourceState.RELEASED)

コード例 #55

0

ファイルを表示

ファイル: cross_ns3_linux_ping.py プロジェクト: phiros/nepi

    def t_cross_ping(self, host, user = None, identity = None):
        ec = ExperimentController(exp_id = "test-linux-ns3-tap-fd")
        
        node = ec.register_resource("linux::Node")
        if host == "localhost":
            ec.set(node, "hostname", "localhost")
        else:
            ec.set(node, "hostname", host)
            ec.set(node, "username", user)
            ec.set(node, "identity", identity)
        
        ec.set(node, "cleanProcesses", True)
        ec.set(node, "cleanExperiment", True)

        simu = ec.register_resource("linux::ns3::Simulation")
        ec.set(simu, "simulatorImplementationType", "ns3::RealtimeSimulatorImpl")
        ec.set(simu, "checksumEnabled", True)
        ec.set(simu, "verbose", True)
        #ec.set(simu, "buildMode", "debug")
        #ec.set(simu, "nsLog", "FdNetDevice")
        ec.register_connection(simu, node)

        nsnode1 = add_ns3_node(ec, simu)
        dev1 = add_point2point_device(ec, nsnode1, "10.0.0.1", "30")

        nsnode2 = add_ns3_node(ec, simu)
        dev2 = add_point2point_device(ec, nsnode2, "10.0.0.2", "30")
        
        # Add routes on the NS3 side
        r1 = ec.register_resource("ns3::Route")
        ec.set(r1, "network", "10.0.1.0")
        ec.set(r1, "prefix", "30")
        ec.set(r1, "nexthop", "10.0.0.1")
        ec.register_connection(r1, nsnode2)

        # Create channel
        chan = ec.register_resource("ns3::PointToPointChannel")
        ec.set(chan, "Delay", "0s")
        ec.register_connection(chan, dev1)
        ec.register_connection(chan, dev2)

        fddev = add_fd_device(ec, nsnode1, "10.0.1.2", "30")
        ec.enable_trace(fddev, "pcap")
        ec.enable_trace(fddev, "promiscPcap")
        ec.enable_trace(fddev, "ascii")

        tap = add_tap_device(ec, node, "10.0.1.1", "30")

        crosslink = ec.register_resource("linux::ns3::TapFdLink")
        ec.register_connection(crosslink, tap)
        ec.register_connection(crosslink, fddev)

        # Add routes on the localhost side
        r2 = ec.register_resource("linux::Route")
        ec.set(r2, "network", "10.0.0.0")
        ec.set(r2, "prefix", "30")
        ec.set(r2, "nexthop", "10.0.1.2")
        ec.register_connection(r2, tap)

        app = ec.register_resource("linux::Application")
        ec.set(app, "command", "ping -c3 10.0.0.1")
        ec.register_connection(app, node)

        ec.register_condition(app, ResourceAction.START, simu, 
                ResourceState.STARTED, time="5s")

        ec.deploy()

        ec.wait_finished([app])

        stdout = ec.trace(app, "stdout")
        expected = "3 packets transmitted, 3 received, 0% packet loss"
        self.assertTrue(stdout.find(expected) > -1)

        ## Releasing to force ns3 to flush the traces
        ec.release()
        pcap = ec.trace(fddev, "pcap")

        self.assertTrue(len(pcap) > 4000)
        ec.shutdown()