コード例 #1
0
def main():
    net = Network('15.0.0.0/8')
    node1 = net.create_node('Node0',
                            image='lab/mit',
                            entrypoint="sleep infinity",
                            ports={
                                '8008/tcp': 8008,
                                '9080/tcp': 9080
                            },
                            enable_internet=True,
                            privileged=True)
    node2 = net.create_node('Node1',
                            image='lab/mit',
                            entrypoint="sleep infinity",
                            ports={'8009/tcp': 8009},
                            enable_internet=True,
                            privileged=True)
    node3 = net.create_node('Node2',
                            image='lab/mit',
                            entrypoint="sleep infinity",
                            ports={'8010/tcp': 8010},
                            enable_internet=True,
                            privileged=True)
    net.create_subnet('net', (node1, node2, node3))

    net.configure(verbose=True)
    net.render('../../labs/kind', verbose=True)
コード例 #2
0
ファイル: kademlia_rip.py プロジェクト: vladyan18/madt
def main():
    parser = ArgumentParser()
    parser.add_argument("lab_path", type=str, help='path to the lab directory')
    args = parser.parse_args()

    main_net = Network('15.0.0.0/8')

    size = 3

    core = main_net.generate_nodes('core_', size)
    nodes = main_net.generate_nodes('n', size * 2, image='kademlia')

    main_net.create_subnet('core_net', core)

    for i in range(len(core)):
        main_net.create_subnet('radial_' + str(i),
                               (core[i], nodes[2 * i], nodes[2 * i + 1]))

    main_net.create_overlay(Overlay.RIP, 'RIP_1', core)

    main_net.configure(verbose=True)

    for node in nodes[1:]:
        node.add_options(environment={'KADEMLIA_ARGS': nodes[0].get_ip()})

    main_net.render(args.lab_path, verbose=True)
コード例 #3
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def main():
    net = Network('15.0.0.0/8')

    # create network nodes that will represent client and server
    server = net.create_node('server',
                             image='madt/docker_compose',
                             enable_internet=True,
                             privileged=True)
    clients = net.generate_nodes('client',
                                 6,
                                 image='madt/pyget',
                                 environment={"SERVER": 'whoami.local'})

    with open('docker-compose.yml') as docker_compose_yml_file:
        server.add_dir('.', '/app')

    # create a local network that will connect all those nodes
    routers = net.generate_nodes('router', 3)
    net.create_subnet('subnet1', (routers[0], *clients[:3]))
    net.create_subnet('subnet2', (routers[1], *clients[3:]))
    net.create_subnet('subnet3', routers)
    net.create_subnet('subnet4', (routers[2], server))

    net.create_overlay(Overlay.RIP, 'RIP', routers)

    # distribute IP addresses
    net.configure(verbose=True)
    # pass server IP to the clients
    for client in clients:
        client.add_options(extra_hosts={'whoami.local': server.get_ip()})
    # save lab
    net.render('../../labs/compose', verbose=True)
コード例 #4
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def main():
    parser = ArgumentParser()
    parser.add_argument("lab_path", type=str, help='path to the lab directory')
    args = parser.parse_args()

    main_net = Network('15.0.0.0/8')

    core = main_net.generate_nodes('core_', 3)
    routers = main_net.generate_nodes('r', 2)
    ospf_routers = main_net.generate_nodes('ospfr', 2)
    nodes = main_net.generate_nodes('n', 11, image='kademlia')

    gateway = main_net.create_node('gateway')

    main_net.make_mesh(core)  # WAS IT DEPRECATED?
    # make subnets connecting each pair of nodes
    main_net.make_mesh((core[0], *routers))  # WAS IT DEPRECATED?

    main_net.create_subnet('ospf_1', (ospf_routers[0], core[2]))
    main_net.create_subnet('ospf_2', (ospf_routers[1], core[2]))

    main_net.create_subnet('lc1', (*nodes[:2], routers[0]))
    main_net.create_subnet('lc2', (*nodes[2:4], routers[1], gateway))
    main_net.create_subnet('lc3', (*nodes[4:7], core[1]))
    main_net.create_subnet('lc4', (*nodes[7:9], ospf_routers[0]))
    main_net.create_subnet('lc5', (*nodes[9:], ospf_routers[1]))

    main_net.create_overlay(Overlay.RIP, 'RIP_1', (core[0], *routers))

    main_net.create_overlay(Overlay.OSPF, 'OSPF_1', (core[2], *ospf_routers))

    main_net.create_overlay(
        Overlay.BGP, 'big_boi',
        [[*nodes[:4], *routers, gateway, core[0]], [*nodes[4:7], core[1]],
         [*nodes[7:], *ospf_routers, core[2]]])

    local_net = main_net.create_local_network(gateway)

    local_routers = local_net.generate_nodes('lan_router', 2)
    local_net.create_subnet('LAN0', (*local_routers, gateway))

    for idx, r in enumerate(local_routers):
        node = local_net.create_node('lan_node' + str(idx + 1),
                                     image='kademlia')
        local_net.create_subnet('LAN' + str(idx + 1), (node, r))
        nodes.append(node)

    local_net.create_overlay(Overlay.RIP, 'RIP_1', local_routers)

    main_net.configure(verbose=True)

    for node in nodes[1:]:
        node.add_options(environment={'KADEMLIA_ARGS': nodes[0].get_ip()})

    main_net.render(args.lab_path, verbose=True)
コード例 #5
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def main():
    parser = ArgumentParser()
    parser.add_argument("lab_path", type=str, help='path to the lab directory')
    args = parser.parse_args()

    global subnets

    # Define network
    net = Network('15.0.0.0/8')

    # Create initial outer nodes and a subnet
    outer_nodes = [
        *net.generate_nodes('core_', children),
    ]
    net.create_subnet('core', outer_nodes)

    # Iteratively create other nodes
    for i in range(iterations):
        new_outer_nodes = []

        for node in outer_nodes:
            idx = outer_nodes.index(node) + 1

            new_nodes = net.generate_nodes('L{0}_N{1}_'.format(i, idx),
                                           children)
            net.create_subnet('L{0}_D{1}'.format(i, idx), (node, *new_nodes))
            subnets += 1

            new_outer_nodes.extend(new_nodes)

        central_nodes.extend(outer_nodes)
        outer_nodes = new_outer_nodes

    # OSPF - Open Shortest Path First
    net.create_overlay(Overlay.OSPF, 'OSPF', central_nodes)

    # Setup the node docker image
    for node in outer_nodes:
        node.image = 'kademlia'

    net.configure(verbose=True)

    for node in outer_nodes[1:]:
        node.add_options(
            environment={'KADEMLIA_ARGS': outer_nodes[0].get_ip()})

    net.render(args.lab_path, verbose=True)

    print('NET SIZE: ', len(central_nodes) + len(outer_nodes))
    print('SUBNETS: ', subnets)
コード例 #6
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def main():
    madt = Network('15.0.0.0/8')

    # create 20 nodes with names sensor_1, sensor_2 etc.
    nodes = madt.generate_nodes('sensor_', 20, image='madt/kademlia')
    # create a local network that will connect all those nodes
    madt.create_subnet('net', nodes)
    # distribute IP addresses
    madt.configure(verbose=True)

    for n in nodes[1:]:  # pass initial connection arguments to kademlia
        n.add_options(environment={'KADEMLIA_ARGS': nodes[0].get_ip()})
    # save lab
    madt.render('../../labs/kademlia', verbose=True)
コード例 #7
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def main():
    net = Network('16.0.0.0/8')
    node_count = 3
    eths = []
    for i in range(node_count):
        num = str(i+2)
        #create docker image for i-node
        eth = net.create_node('eth'+num, image='eth', entrypoint='sh -c "distr/setup_account.sh ' + num + '"')
        eths.append(eth)
    #create subnet
    net.create_subnet('net', eths)
    # distribute IP addresses
    net.configure(verbose=True)
    # save lab
    net.render('../../labs/eth', verbose=True)
コード例 #8
0
ファイル: kademlia_3.py プロジェクト: vladyan18/madt
def main():
    parser = ArgumentParser()
    parser.add_argument("lab_path", type=str, help='path to the lab directory')
    args = parser.parse_args()

    net = Network('15.0.0.0/8')

    nodes = net.generate_nodes('n', 3, image='kademlia')
    net.create_subnet('net', nodes)

    net.configure(verbose=True)

    for node in nodes[1:]:
        node.add_options(environment={'KADEMLIA_ARGS': nodes[0].get_ip()})

    net.render(args.lab_path, verbose=True)
コード例 #9
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def main():
    net = Network('15.0.0.0/8')
    # create a local network that will connect all those nodes
    server = net.create_node('server', image='roastario/notary-and-network-map:4.0',entrypoint='sh -c "/start.sh && while true; do sleep 1000; done"',ports={'10200/tcp': 10200, '8080/tcp': 8080}, privileged=True)
    client1 = net.create_node('client1', image='party-a', entrypoint='sh -c "/run-corda.sh && while true; do sleep 1000; done"',ports={'2222/tcp': 2221}, privileged=True)
    client2 = net.create_node('client2', image='party-b', entrypoint='sh -c "/run-corda.sh && while true; do sleep 1000; done"',ports={'2222/tcp': 2222}, privileged=True)
    client3 = net.create_node('client3', image='party-c', entrypoint='sh -c "/run-corda.sh && while true; do sleep 1000; done"',ports={'2222/tcp': 2223}, privileged=True)
    
    net.create_subnet('net_corda54675', (server, client1, client2, client3))
    
    net.configure(verbose=True)
   
    server.add_options(environment=['PUBLIC_ADDRESS=notary-and-network-map', 'MY_PUBLIC_ADDRESS=notary-and-network-map'])
    
    # save lab
    net.render('../madt/labs/corda-yo', verbose=True)
コード例 #10
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def main():
    net = Network('15.0.0.0/8')
    # create network nodes that will represent client and server
    server = net.create_node('server', image='madt/nginx')
    client = net.create_node(
        'client',
        image='inutano/wget',
        entrypoint=
        'sh -c "while true; do wget -O - -T 3 $SERVER; sleep 1; done"')
    # create a local network that will connect all those nodes
    net.create_subnet('net', (server, client))
    # distribute IP addresses
    net.configure(verbose=True)
    # pass server IP to the client
    client.add_options(environment={'SERVER': server.get_ip()})
    # save lab
    net.render('../../labs/basic_tutorial', verbose=True)
コード例 #11
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def main():
    parser = ArgumentParser()
    parser.add_argument("lab_path", type=str, help='path to the lab directory')
    args = parser.parse_args()

    net = Network('15.0.0.0/8')

    routers = net.generate_nodes('r', 3)
    net.create_subnet('core', routers)

    for idx, router in enumerate(routers):
        n = net.create_node('n' + str(idx + 1))
        net.create_subnet('net' + str(idx + 1), (router, n))

        n.add_file('/me.txt', 'IM NODE #' + str(idx))

    net.create_overlay(Overlay.RIP, 'RIP', routers)
    net.render(args.lab_path, verbose=True)
コード例 #12
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ファイル: base_small_lan.py プロジェクト: vladyan18/madt
def main():
    parser = ArgumentParser()
    parser.add_argument("lab_path", type=str, help='path to the lab directory')
    args = parser.parse_args()

    net = Network('15.0.0.0/8')

    nodes = net.generate_nodes('n', 3)
    net.create_subnet('net', nodes)

    local_net = net.create_local_network(nodes[0])

    ln = local_net.create_node('l_n1')
    local_net.create_subnet('LAN', (ln, nodes[0]))

    net.configure(verbose=True)

    net.render(args.lab_path, verbose=True)
コード例 #13
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def main():
    net = Network('15.0.0.0/8')

    # create network nodes
    node1 = net.create_node('node1',
                            image='env_neo_go_one_image',
                            ports={
                                '20333/tcp': 20333,
                                '30333/tcp': 30333,
                                '20001/tcp': 20001
                            })
    node2 = net.create_node('node2',
                            image='env_neo_go_two_image',
                            ports={
                                '20334/tcp': 20334,
                                '30334/tcp': 30334,
                                '20002/tcp': 20002
                            })
    node3 = net.create_node('node3',
                            image='env_neo_go_three_image',
                            ports={
                                '20335/tcp': 20335,
                                '30335/tcp': 30335,
                                '20003/tcp': 20003
                            })
    node4 = net.create_node('node4',
                            image='env_neo_go_four_image',
                            ports={
                                '20336/tcp': 20336,
                                '30336/tcp': 30336,
                                '20004/tcp': 20004
                            })

    # create a local network that will connect all those nodes
    net.create_subnet('net', (node1, node2, node3, node4))

    # distribute IP addresses
    net.configure(verbose=True)

    # save lab
    net.render('../../labs/basic_tutorial', verbose=True)
コード例 #14
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def main():
    madt = Network('15.0.0.0/8')
    # create network nodes that will represent client and server
    server = madt.create_node('server', image='madt/nginx')
    clients = madt.generate_nodes('client', 1, image='madt/pyget')
    # create a local network that will connect all those nodes
    routers = madt.generate_nodes('ospfr', 2)
    madt.create_subnet('subnet1', (routers[0], clients[0]))
    #madt.create_subnet('subnet2', (routers[1], *clients[3:]))
    madt.create_subnet('subnet3', routers)
    madt.create_subnet('subnet4', (routers[1], server))

    madt.create_overlay(Overlay.OSPF, 'OSPF', routers)

    # distribute IP addresses
    madt.configure(verbose=True)
    # pass server IP to the clients
    for client in clients:
        client.add_options(environment={'SERVER': server.get_ip()})
    # save lab
    madt.render('../../labs/monitoring', verbose=True)
コード例 #15
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def main():
    parser = ArgumentParser()
    parser.add_argument("lab_path", type=str, help='path to the lab directory')
    args = parser.parse_args()

    net = Network('15.0.0.0/8')

    core = net.generate_nodes('core_', 3)
    routers = net.generate_nodes('r', 2)
    ospf_routers = net.generate_nodes('ospfr', 2)
    nodes = net.generate_nodes('n', 11, image='kademlia')

    net.make_mesh(core) # WAS IT DEPRECATED?

    # make subnets connecting each pair of nodes
    net.make_mesh((core[0], *routers)) # WAS IT DEPRECATED?

    net.create_subnet('ospf_1', (ospf_routers[0], core[2]))
    net.create_subnet('ospf_2', (ospf_routers[1], core[2]))

    net.create_subnet('lc1', (*nodes[:2], routers[0]))
    net.create_subnet('lc2', (*nodes[2:4], routers[1]))
    net.create_subnet('lc3', (*nodes[4:7], core[1]))
    net.create_subnet('lc4', (*nodes[7:9], ospf_routers[0]))
    net.create_subnet('lc5', (*nodes[9:], ospf_routers[1]))

    net.create_overlay(Overlay.RIP, 'RIP_1', (core[0], *routers))

    net.create_overlay(Overlay.OSPF, 'OSPF_1', (core[2], *ospf_routers))

    net.create_overlay(Overlay.BGP, 'big_boi', [
        [*nodes[:4], *routers, core[0]], [*nodes[4:7], core[1]], [*nodes[7:], *ospf_routers, core[2]]
    ])

    net.configure(verbose=True)

    for node in nodes[1:]:
        node.add_options(environment={'KADEMLIA_ARGS': nodes[0].get_ip()})

    net.render(args.lab_path, verbose=True)
コード例 #16
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ファイル: lab.py プロジェクト: vladyan18/madt
def main():
    madt = Network('15.0.0.0/8')

    server = madt.create_node('server', image='madt/nginx')
    clients = madt.generate_nodes(
        'client',
        6,
        image='inutano/wget',
        entrypoint=
        'sh -c "while true; do wget -O - -T 3 $SERVER; sleep 1; done"')

    routers = madt.generate_nodes('router', 3)
    madt.create_subnet('subnet1', (routers[0], *clients[:3]))
    madt.create_subnet('subnet2', (routers[1], *clients[3:]))
    madt.create_subnet('subnet3', routers)
    madt.create_subnet('subnet4', (routers[2], server))

    madt.create_overlay(Overlay.RIP, 'RIP', routers)

    madt.configure(verbose=True)
    for client in clients:
        client.add_options(environment={'SERVER': server.get_ip()})
    madt.render('../../labs/dynamic_routing', verbose=True)
コード例 #17
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ファイル: lab.py プロジェクト: NightBlade97/Madt_HL_Fabric
def main():
    net = Network('15.0.0.0/8')
    node1 = net.create_node('peer0.org1.example.com',
                            image='hyperledger/fabric-peer:latest',
                            enviroment={"", "", ""},
                            entrypoint="sleep infinity",
                            ports={'7051/tcp': 7051},
                            privileged=True)
    node2 = net.create_node('peer0.org2.example.com',
                            image='hyperledger/fabric-peer:latest',
                            enviroment={"", "", ""},
                            entrypoint="sleep infinity",
                            ports={'9051/tcp': 7051},
                            privileged=True)
    node3 = net.create_node('orderer.example.com',
                            image='hyperledger/fabric-orderer:latest',
                            enviroment={"", "", ""},
                            entrypoint="sleep infinity",
                            ports={'7050/tcp': 7050},
                            privileged=True)
    net.create_subnet('net', (node1, node2, node3))

    net.configure(verbose=True)
    net.render('../../madt/labs/HL_Fabric', verbose=True)
コード例 #18
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from madt_lib.network import Network, Overlay
kt = Network('15.0.0.0/8')
# create network nodes that will represent client and server
server = kt.create_node('server', image='madt/nginx')
clients = kt.generate_nodes('client', 6, image='madt/pyget')
# create a local network that will connect all those nodes
routers = kt.generate_nodes('router', 3)
kt.create_subnet('subnet1', (routers[0], *clients[:3]))
kt.create_subnet('subnet2', (routers[1], *clients[3:]))
kt.create_subnet('subnet3', routers)
kt.create_subnet('subnet4', (routers[2], server))

kt.create_overlay(Overlay.RIP, 'RIP', routers)

# distribute IP addresses
kt.configure(verbose=True)
# pass server IP to the clients
for client in clients:
    client.add_options(environment={'SERVER': server.get_ip()})
# save lab
kt.render('/home/demo/labs/monitoring', verbose=True)
コード例 #19
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ファイル: lab.py プロジェクト: TrendingTechnology/madt
# create network nodes that will represent client and server
server = kt.create_node('server',
                        image='madt/docker_compose',
                        enable_internet=True,
                        privileged=True)
clients = kt.generate_nodes('client',
                            6,
                            image='madt/pyget',
                            environment={"SERVER": 'whoami.local'})

with open('docker-compose.yml') as docker_compose_yml_file:
    server.add_dir('.', '/app')

# create a local network that will connect all those nodes
routers = kt.generate_nodes('router', 3)
kt.create_subnet('subnet1', (routers[0], *clients[:3]))
kt.create_subnet('subnet2', (routers[1], *clients[3:]))
kt.create_subnet('subnet3', routers)
kt.create_subnet('subnet4', (routers[2], server))

kt.create_overlay(Overlay.RIP, 'RIP', routers)

# distribute IP addresses
kt.configure(verbose=True)
# pass server IP to the clients
for client in clients:
    client.add_options(extra_hosts={'whoami.local': server.get_ip()})
# save lab
kt.render('/home/demo/labs/compose', verbose=True)
コード例 #20
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ファイル: lab.py プロジェクト: TrendingTechnology/madt
from madt_lib.network import Network

kt = Network('15.0.0.0/8')
# create network nodes that will represent client and server
server = kt.create_node('server', image='madt/nginx')
client = kt.create_node(
    'client',
    image='inutano/wget',
    entrypoint='sh -c "while true; do wget -O - -T 3 $SERVER; sleep 1; done"')
# create a local network that will connect all those nodes
kt.create_subnet('net', (server, client))
# distribute IP addresses
kt.configure(verbose=True)
# pass server IP to the client
client.add_options(environment={'SERVER': server.get_ip()})
# save lab
kt.render('../../labs/basic_tutorial', verbose=True)
コード例 #21
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main_net.create_subnet('lc4', (*nodes[7:9], ospf_routers[0]))
main_net.create_subnet('lc5', (*nodes[9:], ospf_routers[1]))

main_net.create_overlay(Overlay.RIP, 'RIP_1', (core[0], *routers))

main_net.create_overlay(Overlay.OSPF, 'OSPF_1', (core[2], *ospf_routers))

main_net.create_overlay(
    Overlay.BGP, 'big_boi',
    [[*nodes[:4], *routers, gateway, core[0]], [*nodes[4:7], core[1]],
     [*nodes[7:], *ospf_routers, core[2]]])

local_net = main_net.create_local_network(gateway)

local_routers = local_net.generate_nodes('lan_router', 2)
local_net.create_subnet('LAN0', (*local_routers, gateway))

for idx, r in enumerate(local_routers):
    n = local_net.create_node('lan_node' + str(idx + 1), image='kademlia')
    local_net.create_subnet('LAN' + str(idx + 1), (n, r))
    nodes.append(n)

local_net.create_overlay(Overlay.RIP, 'RIP_1', local_routers)

main_net.configure(verbose=True)

for n in nodes[1:]:
    n.add_options(environment={'KADEMLIA_ARGS': nodes[0].get_ip()})

main_net.render(sys.argv[1], verbose=True)
コード例 #22
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ファイル: lab.py プロジェクト: TrendingTechnology/madt
from madt_lib.network import Network

kt = Network('15.0.0.0/8')

# create 20 nodes with names sensor_1, sensor_2 etc.
nodes = kt.generate_nodes('sensor_', 20, image='madt/kademlia')
# create a local network that will connect all those nodes
kt.create_subnet('net', nodes)
# distribute IP addresses
kt.configure(verbose=True)

for n in nodes[1:]:  # pass initial connection arguments to kademlia
    n.add_options(environment={'KADEMLIA_ARGS': nodes[0].get_ip()})
# save lab
kt.render('/home/demo/labs/kademlia', verbose=True)
コード例 #23
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ファイル: lab.py プロジェクト: TrendingTechnology/madt
from madt_lib.network import Network, Overlay
kt = Network('15.0.0.0/8')

server = kt.create_node('server', image='madt/nginx')
clients = kt.generate_nodes(
    'client',
    6,
    image='inutano/wget',
    entrypoint='sh -c "while true; do wget -O - -T 3 $SERVER; sleep 1; done"')

routers = kt.generate_nodes('router', 3)
kt.create_subnet('subnet1', (routers[0], *clients[:3]))
kt.create_subnet('subnet2', (routers[1], *clients[3:]))
kt.create_subnet('subnet3', routers)
kt.create_subnet('subnet4', (routers[2], server))

kt.create_overlay(Overlay.RIP, 'RIP', routers)

kt.configure(verbose=True)
for client in clients:
    client.add_options(environment={'SERVER': server.get_ip()})
kt.render('/home/demo/labs/dynamic_routing', verbose=True)
コード例 #24
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ファイル: lab.py プロジェクト: nuvard/madt_thunder
def main():
    net = Network('15.0.0.0/8')
    node_count = 6
    thunders = []
    # path = 'my:/home/svetlov/Downloads/madt/tutorials/madt_thunder/build/tendermint:Z'
    # create network nodes that will represent client and server
    for x in range(1,6):
	    thunders.append(net.create_node('node'+str(x), 
                        privileged=True,
                        image="tendermint/validator",
                        ports={'26656/tcp': 26659+2*(x-1), '26657/tcp': 26660+2*(x-1)},
                        environment={'ID':str(x-1),'LOG':'${LOG:-tendermint.log}'},
                        ))
    # create sleep node to simulated adding new nodes
    for x in range(6,7):
        thunders.append(net.create_node('node'+str(x), 
                        privileged=True,
                        image="tendermint/validator",
                        ports={'26656/tcp': 26659+2*(x-1), '26657/tcp': 26660+2*(x-1)},
                        environment={'ID':str(x-1),'LOG':'${LOG:-tendermint.log}'},
                        # entrypoint="sleep "+str(int(x>4)*x*10)
                        entrypoint="sleep 100000",
                        ))
    x=7
    thunders.append(net.create_node('node'+str(x), 
                        privileged=True,
                        image="tendermint/nonvalidator",
                        ports={'26656/tcp': 26659+2*(7-1), '26657/tcp': 26660+2*(x-1)},
                        environment={'ID':str(x-1),'LOG':'${LOG:-tendermint.log}'},
                        # entrypoint="sleep "+str(int(x>4)*x*10)
                        #entrypoint="sleep 100000",
                        ))
    # thunder1 = net.create_node('node1', 
    #                     privileged=True,
    #                     image="tendermint/validator",
    #                     ports={'26656/tcp': 26656, '26657/tcp': 26657},
    #                     environment={'ID':'0','LOG':'${LOG:-tendermint.log}'})
    # thunder2 = net.create_node('node2', 
    #                     privileged=True,
    #                     image="tendermint/validator",
    #                     ports={'26656/tcp': 26659, '26657/tcp': 26660},
    #                     environment={'LOG':'${LOG:-tendermint.log}', 'ID':'1'})
    # thunder3 = net.create_node('node3', 
    #                     privileged=True,
    #                     image="tendermint/validator",
    #                     environment={'LOG':'${LOG:-tendermint.log}', 'ID':'2'},
    #                     ports={'26656/tcp': 26661, '26657/tcp': 26662},
    #                     )
    # thunder4 = net.create_node('node4', 
    #                     privileged=True,
    #                     image="tendermint/validator",
    #                     environment={'LOG':'${LOG:-tendermint.log}', 'ID':'3'},
    #                     ports={'26656/tcp': 26663, '26657/tcp': 26664},
    #                     )
   

    # thunder5 = net.create_node('node5', 
    #                     privileged=True,
    #                     image="tendermint/nonvalidator",
    #                     environment={'LOG':'${LOG:-tendermint.log}', 'ID':'4'},
    #                     ports={'26656/tcp': 26665, '26657/tcp': 26666},
    #                     entrypoint="sleep 10000000",
    #                     #volumes=path
    #                     )
    
    # create a local network that will connect all those nodes
    net.create_subnet('net', thunders)
    # net.create_subnet('net', (thunder1,thunder2,thunder3,thunder4))
    # distribute IP addresses
    net.configure(verbose=True)

    net.render('../../labs/my', verbose=True)
コード例 #25
0
nodes = net.generate_nodes('n', 11, image='kademlia')

net.make_mesh(core)

# make subnets connecting each pair of nodes
net.make_mesh((core[0], *routers))

net.create_subnet('ospf_1', (ospf_routers[0], core[2]))
net.create_subnet('ospf_2', (ospf_routers[1], core[2]))

net.create_subnet('lc1', (*nodes[:2], routers[0]))
net.create_subnet('lc2', (*nodes[2:4], routers[1]))
net.create_subnet('lc3', (*nodes[4:7], core[1]))
net.create_subnet('lc4', (*nodes[7:9], ospf_routers[0]))
net.create_subnet('lc5', (*nodes[9:], ospf_routers[1]))

net.create_overlay(Overlay.RIP, 'RIP_1', (core[0], *routers))

net.create_overlay(Overlay.OSPF, 'OSPF_1', (core[2], *ospf_routers))

net.create_overlay(Overlay.BGP, 'big_boi',
                   [[*nodes[:4], *routers, core[0]], [*nodes[4:7], core[1]],
                    [*nodes[7:], *ospf_routers, core[2]]])

net.configure(verbose=True)

for n in nodes[1:]:
    n.add_options(environment={'KADEMLIA_ARGS': nodes[0].get_ip()})

net.render(sys.argv[1], verbose=True)