コード例 #1
0
def main():
    cpus = 1
    memory = 1024
    Bdisksize = 10
    no_of_disks = 0
    data_disksize = 0
    vm_specs = [no_of_disks, data_disksize, Bdisksize, memory, cpus]

    sys.path.append(os.getcwd())
    from performance_testing.utils import utils

    ccl = j.clients.osis.getNamespace("cloudbroker")
    pcl = j.clients.portal.getByInstance("main")
    scl = j.clients.osis.getNamespace("system")

    USERNAME = "******"
    email = "*****@*****.**" % str(uuid.uuid4())[0:8]
    utils.create_user(USERNAME, email, pcl, scl)
    ACCOUNTNAME = str(uuid.uuid4())[0:8]
    accountId = utils.create_account(USERNAME, email, ACCOUNTNAME, ccl, pcl)

    current_stack = ccl.stack.search(
        {"referenceId": str(j.application.whoAmI.nid), "gid": j.application.whoAmI.gid}
    )[1]
    stacks = utils.get_stacks(ccl)

    loc = ccl.location.search({})[1]["locationCode"]
    cs_No = 1
    while True:
        for stackid in stacks:
            if stackid == current_stack["id"]:
                continue
            print("Creating cloudspace No.%s ..." % cs_No)
            cloudspaceId = pcl.actors.cloudapi.cloudspaces.create(
                accountId=accountId, location=loc, name="CS%s" % cs_No, access=USERNAME
            )
            print("   |--Deploying cloudspace...")
            try:
                pcl.actors.cloudbroker.cloudspace.deployVFW(cloudspaceId)
                cloudspace = ccl.cloudspace.get(cloudspaceId).dump()
            except:
                print("   |-- No more cloudspaces can be created")
                return [[cpus, memory, Bdisksize, cs_No]]
            try:
                utils.create_machine_onStack(
                    stackid,
                    cloudspace,
                    0,
                    ccl,
                    pcl,
                    scl,
                    vm_specs,
                    cs_publicport=0,
                    Res_dir="wait_for_VMIP",
                )
                cs_No += 1
            except:
                print("   |--failed to create the machine")
                return [[cpus, memory, Bdisksize, cs_No]]
コード例 #2
0
def main(snapshots_number):
    cpu = 1
    memory = 512
    Bdisksize = 10
    no_of_disks = 0
    data_disksize = 0
    vm_specs = [no_of_disks, data_disksize, Bdisksize, memory, cpu]

    ccl = j.clients.osis.getNamespace("cloudbroker")
    pcl = j.clients.portal.getByInstance("main")
    scl = j.clients.osis.getNamespace("system")

    j.do.execute("apt-get install sshpass")
    sys.path.append(os.getcwd())
    from performance_testing.utils import utils

    USERNAME = "******"
    email = "*****@*****.**" % str(uuid.uuid4())[0:8]
    utils.create_user(USERNAME, email, pcl, scl)
    ACCOUNTNAME = str(uuid.uuid4())[0:8]
    accountId = utils.create_account(USERNAME, email, ACCOUNTNAME, ccl, pcl)
    cloudspace = utils.create_cloudspace(accountId, USERNAME, ccl, pcl)
    cloudspace_publicport = 9000

    current_stack = ccl.stack.search({
        "referenceId":
        str(j.application.whoAmI.nid),
        "gid":
        j.application.whoAmI.gid
    })[1]
    stacks = utils.get_stacks(ccl)
    stacks.remove(current_stack["id"])
    stackid = stacks[0]

    print(
        "A new machine will be created on the node with stackId:%s" % stackid
    )  #################################################################3 name of the vm
    [machineId, cloudspace_publicip] = utils.create_machine_onStack(
        stackid,
        cloudspace,
        "_unlimited_snapshotvm",
        ccl,
        pcl,
        scl,
        vm_specs,
        cloudspace_publicport,
        Res_dir="test_res",
    )
    machine = pcl.actors.cloudapi.machines.get(machineId)
    account = machine["accounts"][0]

    for i in range(snapshots_number):
        utils.writefile_on_vm(
            account,
            cloudspace_publicip,
            cloudspace_publicport,
            "snapshot%s.txt" % (i + 1),
        )
        time.sleep(6)
        # utils.run_again_if_failed(pcl.actors.cloudapi.machines.stop, machineId=machineId)
        print("   |--creating snapshot No.%s ..." % (i + 1))
        try:
            pcl.actors.cloudapi.machines.snapshot(machineId=machineId,
                                                  name="snapshot%s" % (i + 1))
            snapshots = pcl.actors.cloudapi.machines.listSnapshots(
                machineId=machineId)
            print("snapshots length: %s" % len(snapshots))

        except:
            snapshots = utils.run_again_if_failed(
                pcl.actors.cloudapi.machines.listSnapshots,
                machineId=machineId)
            print("snapshots length: %s" % len(snapshots))
            continue
        time.sleep(5)
        # utils.run_again_if_failed(pcl.actors.cloudapi.machines.start, machineId=machineId)
        # time.sleep(20)

    print("Rolling back to snapshot No.%s ..." % (snapshots_number - 1))
    utils.run_again_if_failed(pcl.actors.cloudapi.machines.stop,
                              machineId=machineId)
    snapshots = pcl.actors.cloudapi.machines.listSnapshots(machineId=machineId)
    snapshots.sort()
    utils.run_again_if_failed(
        pcl.actors.cloudapi.machines.rollbackSnapshot,
        machineId=machineId,
        epoch=snapshots[snapshots_number - 2]["epoch"],
    )
    utils.run_again_if_failed(pcl.actors.cloudapi.machines.start,
                              machineId=machineId)
    time.sleep(30)

    connection = j.remote.cuisine.connect(
        cloudspace_publicip,
        cloudspace_publicport,
        account["password"],
        account["login"],
    )
    count_snapshots = connection.run("ls -1 | wc -l")
    j.do.execute('ssh-keygen -f "/root/.ssh/known_hosts" -R [%s]:%s' %
                 (cloudspace_publicip, cloudspace_publicport))
    return count_snapshots
コード例 #3
0
def main():
    config = ConfigParser.ConfigParser()
    config.read(
        "functional_testing/Openvcloud/compute_node_hosted/6_vm_live_migration_test/parameters.cfg"
    )
    cpu = int(config.get("parameters", "cpu"))
    memory = int(config.get("parameters", "memory"))
    Bdisksize = int(config.get("parameters", "Bdisksize"))
    no_of_disks = 0
    data_disksize = 0
    vm_specs = [no_of_disks, data_disksize, Bdisksize, memory, cpu]

    ccl = j.clients.osis.getNamespace('cloudbroker')
    pcl = j.clients.portal.getByInstance('main')
    scl = j.clients.osis.getNamespace('system')

    j.do.execute('apt-get install sshpass')
    sys.path.append(os.getcwd())
    from performance_testing.utils import utils
    USERNAME = '******'
    email = "*****@*****.**" % str(uuid.uuid4())[0:8]
    utils.create_user(USERNAME, email, pcl, scl)
    ACCOUNTNAME = str(uuid.uuid4())[0:8]
    accountId = utils.create_account(USERNAME, email, ACCOUNTNAME, ccl, pcl)
    cloudspace = utils.create_cloudspace(accountId, USERNAME, ccl, pcl)
    cloudspace_publicport = 6000

    current_stack = ccl.stack.search({
        'referenceId':
        str(j.application.whoAmI.nid),
        'gid':
        j.application.whoAmI.gid
    })[1]
    stacks = utils.get_stacks(ccl)
    stacks.remove(current_stack['id'])
    stackid = stacks[0]

    print('A new machine will be created on the node with stackId:%s' %
          stackid)
    [machineId,
     cloudspace_publicip] = utils.create_machine_onStack(stackid,
                                                         cloudspace,
                                                         0,
                                                         ccl,
                                                         pcl,
                                                         scl,
                                                         vm_specs,
                                                         cloudspace_publicport,
                                                         Res_dir='test_res')

    machine = pcl.actors.cloudapi.machines.get(machineId)
    account = machine['accounts'][0]

    try:
        if not j.system.net.waitConnectionTest(cloudspace_publicip,
                                               cloudspace_publicport, 40):
            print 'Could not connect to VM over public interface'
        else:
            connection = j.remote.cuisine.connect(cloudspace_publicip,
                                                  cloudspace_publicport,
                                                  account['password'],
                                                  account['login'])
            connection.fabric.state.output["running"] = False
            connection.fabric.state.output["stdout"] = False
            connection.user(account['login'])
            connection.apt_get('update')
            connection.apt_get('install fio')

        j.do.execute(
            'sshpass -p%s scp -o \'StrictHostKeyChecking=no\' -P %s functional_testing/Openvcloud/compute_node_hosted/6_vm_live_migration_test/machine_script.py %s@%s:'
            % (account['password'], cloudspace_publicport, account['login'],
               cloudspace_publicip))
        j.do.execute(
            'sshpass -p%s scp -o \'StrictHostKeyChecking=no\' -P %s functional_testing/Openvcloud/compute_node_hosted/6_vm_live_migration_test/check_script.py %s@%s:'
            % (account['password'], cloudspace_publicport, account['login'],
               cloudspace_publicip))

        network.disconnect_all()
        processes = []
        for i in range(2):
            if i == 0:
                p = multiprocessing.Process(target=utils.run_script,
                                            args=(account, cloudspace_publicip,
                                                  cloudspace_publicport,
                                                  'test1'))
                processes.append(p)
            else:
                p = multiprocessing.Process(target=pcl.actors.cloudbroker.
                                            machine.moveToDifferentComputeNode,
                                            args=(machineId, 'Testing',
                                                  stacks[1], False))
                processes.append(p)
        for l in range(len(processes)):
            if l == 0:
                print('started writing a file on the created machine ...')
            processes[l].start()
            if l == 1:
                time.sleep(7)
                machine_db = ccl.vmachine.get(machineId)
                if machine_db.status == 'RUNNING' and machine_db.stackId == stacks[
                        1]:
                    print(
                        'The VM have been successfully installed on other node with approximately no downtime during live migration'
                    )
                else:
                    print(
                        'A high downtime (more than 7 secs) have been noticed')
                    return None
            time.sleep(15)
            if l == 0:
                print('Machine will be moved to the node with stackId:%s' %
                      stacks[1])
        for k in range(len(processes)):
            processes[k].join()

        network.disconnect_all()
        print('writing a second file to compare with ...')
        utils.run_script(account, cloudspace_publicip, cloudspace_publicport,
                         'test2')

        network.disconnect_all()
        print('checking if there is no data loss ...')
        test_result = utils.check_script(account, cloudspace_publicip,
                                         cloudspace_publicport, 'test1.1.0',
                                         'test2.1.0')
        if test_result != 'Two files are identical':
            print('There is a data loss')
        j.do.execute('ssh-keygen -f "/root/.ssh/known_hosts" -R [%s]:%s' %
                     (cloudspace_publicip, cloudspace_publicport))
        return test_result
    finally:
        j.do.execute('ssh-keygen -f "/root/.ssh/known_hosts" -R [%s]:%s' %
                     (cloudspace_publicip, cloudspace_publicport))
コード例 #4
0
def main():
    config = ConfigParser.ConfigParser()
    config.read(
        "functional_testing/Openvcloud/compute_node_hosted/8_node_maintenance_test/parameters.cfg"
    )
    cpu = int(config.get("parameters", "cpu"))
    memory = int(config.get("parameters", "memory"))
    Bdisksize = int(config.get("parameters", "Bdisksize"))
    no_of_disks = 0
    data_disksize = 0
    vm_specs = [no_of_disks, data_disksize, Bdisksize, memory, cpu]

    ccl = j.clients.osis.getNamespace('cloudbroker')
    pcl = j.clients.portal.getByInstance('main')
    scl = j.clients.osis.getNamespace('system')

    j.do.execute('apt-get install sshpass')
    sys.path.append(os.getcwd())
    from performance_testing.utils import utils
    USERNAME = '******'
    email = "*****@*****.**" % str(uuid.uuid4())[0:8]
    utils.create_user(USERNAME, email, pcl, scl)
    ACCOUNTNAME = str(uuid.uuid4())[0:8]
    accountId = utils.create_account(USERNAME, email, ACCOUNTNAME, ccl, pcl)
    cloudspace = utils.create_cloudspace(accountId, USERNAME, ccl, pcl)
    cloudspace_publicport = 8000

    current_stack = ccl.stack.search({
        'referenceId':
        str(j.application.whoAmI.nid),
        'gid':
        j.application.whoAmI.gid
    })[1]
    stacks = utils.get_stacks(ccl)
    stacks.remove(current_stack['id'])
    stackid = stacks[0]

    print('A new machine will be created on the node with stackId:%s' %
          stackid)
    [machineId,
     cloudspace_publicip] = utils.create_machine_onStack(stackid,
                                                         cloudspace,
                                                         0,
                                                         ccl,
                                                         pcl,
                                                         scl,
                                                         vm_specs,
                                                         cloudspace_publicport,
                                                         Res_dir='test_res')

    utils.setup_machine(cloudspace, machineId, cloudspace_publicport, pcl,
                        no_of_disks, 'onlyfio')

    machine = pcl.actors.cloudapi.machines.get(machineId)
    account = machine['accounts'][0]
    j.do.execute(
        'sshpass -p%s scp -o \'StrictHostKeyChecking=no\' -P %s functional_testing/Openvcloud/compute_node_hosted/8_node_maintenance_test/machine_script.py %s@%s:'
        % (account['password'], cloudspace_publicport, account['login'],
           cloudspace_publicip))
    j.do.execute(
        'sshpass -p%s scp -o \'StrictHostKeyChecking=no\' -P %s functional_testing/Openvcloud/compute_node_hosted/6_vm_live_migration_test/check_script.py %s@%s:'
        % (account['password'], cloudspace_publicport, account['login'],
           cloudspace_publicip))

    network.disconnect_all()
    processes = []
    for i in range(2):
        if i == 0:
            p = multiprocessing.Process(target=utils.run_script,
                                        args=(account, cloudspace_publicip,
                                              cloudspace_publicport, 'test1'))
            processes.append(p)
        else:
            gid = ccl.stack.get(ccl.vmachine.get(machineId).stackId).gid
            p = multiprocessing.Process(
                target=pcl.actors.cloudbroker.computenode.maintenance,
                args=(stackid, gid, 'move', 'testing'))
            processes.append(p)
    for l in range(len(processes)):
        if l == 0:
            print('started writing a file on the created machine ...')
        processes[l].start()
        if l == 1:
            time.sleep(10)
            machine_db = ccl.vmachine.get(machineId)
            if machine_db.stackId == stackid:
                print('VM didn\'t move to another stackId')
                return [None, stackid, gid]
            else:
                if machine_db.status == 'RUNNING':
                    print(
                        'The VM have been successfully installed on other node with approximately no downtime during cpu node maintenance'
                    )
                else:
                    print('A high downtime have been noticed')
                    return [None, stackid, gid]
        time.sleep(12)
        if l == 0:
            print('cpu node with stackid:%s will be put in maintenance ..' %
                  stackid)
    for k in range(len(processes)):
        processes[k].join()

    network.disconnect_all()
    print('writing a second file to compare with ...')
    utils.run_script(account, cloudspace_publicip, cloudspace_publicport,
                     'test2')

    network.disconnect_all()
    print('checking if there is no data loss ...')
    test_result = utils.check_script(account, cloudspace_publicip,
                                     cloudspace_publicport, 'test1.1.0',
                                     'test2.1.0')
    if test_result != 'Two files are identical':
        print('There is a data loss')
    j.do.execute('ssh-keygen -f "/root/.ssh/known_hosts" -R [%s]:%s' %
                 (cloudspace_publicip, cloudspace_publicport))
    return [test_result, stackid, gid]
コード例 #5
0
utils.create_user(USERNAME, email, pcl, scl)
ACCOUNTNAME = str(uuid.uuid4())[0:8]
accountId = utils.create_account(USERNAME, email, ACCOUNTNAME, ccl, pcl)
cloudspace = utils.create_cloudspace(accountId, USERNAME, ccl, pcl)
cloudspace_publicport = 1000

cloudspace_publicIP = str(netaddr.IPNetwork(cloudspace['publicipaddress']).ip)

if not j.system.net.waitConnectionTest(cloudspace_publicIP, 9080, 60):
    print 'Could not connect to VM over public interface'

current_stack = ccl.stack.search({
    'referenceId': str(j.application.whoAmI.nid),
    'gid': j.application.whoAmI.gid
})[1]
stacks = utils.get_stacks(ccl)
cpu = 2
memory = 2048
Bdisksize = 100
no_of_disks = 0
data_disksize = 0
vm_specs = [no_of_disks, data_disksize, Bdisksize, memory, cpu]

machines = []
for stackid in stacks:
    if stackid == current_stack['id']:
        continue
    print(
        'creating machine on stack: %s and checking if it is accessible on public interface'
        % stackid)
    machineId = utils.create_machine_onStack(stackid,