Ejemplo n.º 1
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 def test_post_tn(self, apics, certobject, userobject):
     apic = apics[0]
     secure = False if apics[1] == 'False' else True
     userobject.pkey = certobject.readFile(
         fileName=certobject.pkeyfile)
     session = CertSession(apic, userobject.certDn, userobject.pkey,
                           secure=secure, requestFormat='xml')
     moDir = MoDirectory(session)
     uni = Uni('')
     fvTenant = Tenant(uni, name='t')
     fvBD = BD(fvTenant, 't-bd')
     fvAp = Ap(fvTenant, 't-app')
     cr = ConfigRequest()
     #cr.subtree = 'full'
     cr.addMo(fvTenant)
     if userobject.user == 'rouser':
         with pytest.raises(RestError) as excinfo:
             r = moDir.commit(cr)
         assert excinfo.value.reason == ('user rouser does not have ' +
                                         'domain access to config Mo, ' +
                                         'class fvTenant')
     elif userobject.user == 'rwuser':
         r = moDir.commit(cr)
     else:
         raise NotImplementedError
Ejemplo n.º 2
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def create_apn(logon_session,
               tenant_name="Example_TN",
               description="Description",
               ap_name=''):

    from cobra.internal.codec.jsoncodec import toJSONStr
    from cobra.model.fv import Tenant, RsTenantMonPol, Ap
    from cobra.mit.request import ConfigRequest
    import cobra.model.pol
    import cobra.model.vns
    c = ConfigRequest()
    #apic_logon(apic_url, user, password)
    polUni = cobra.model.pol.Uni('')

    fvTenant = Tenant(polUni, tenant_name)

    # build the request using cobra syntax
    fvAp = Ap(fvTenant,
              ownerKey=u'',
              name=ap_name,
              descr=description,
              nameAlias=u'',
              ownerTag=u'',
              prio=u'unspecified',
              annotation=u'')

    apn_data = toJSONStr(polUni)

    c.addMo(polUni)
    logon_session.commit(c)
    return apn_data
Ejemplo n.º 3
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def create_application(fv_tenant, application, **args):
    """Create a Application. The application profile is a set of requirements that an application instance has on the virtualizable fabric. The policy regulates connectivity and visibility among endpoints within the scope of the policy. """
    args = args['optional_args'] if 'optional_args' in args.keys() else args

    fv_ap = Ap(fv_tenant,
               application,
               prio=get_value(args, 'prio', DEFAULT_QOS).lower())
    return fv_ap
Ejemplo n.º 4
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 def create_ap(self, tenant_dn, ap_name):
     """
     Creates an application profile
     :param tenant_dn:
     :param ap_name:
     :return:
     """
     ap_mo = Ap(tenant_dn, ap_name)
     self.commit(ap_mo)
     return ap_mo
Ejemplo n.º 5
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def create_epg(tenant, bdName, vNum, epgName, apName=APP):
    fvAp = Ap(tenant, apName)
    try:
        fvAEPg = AEPg(fvAp, name=epgName)
        RsBd(fvAEPg, tnFvBDName=bdName)
        CONFIG.addMo(fvAEPg)
        print '[+] EPG %s created successfully' % epgName
        return fvAEPg
    except:
        print '[-] Error creating EPG'
        exit(1)
Ejemplo n.º 6
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 def test_tn_cleanup(self, apics, certobject, userobject):
     if userobject.user == 'rouser':
         return
     apic = apics[0]
     user = apics[2]
     password = apics[3]
     secure = False if apics[1] == 'False' else True
     uni = Uni('')
     fvTenant = Tenant(uni, name='t')
     fvTenant.delete()
     fvBD = BD(fvTenant, 't-bd')
     fvBD.delete()
     fvAp = Ap(fvTenant, 't-app')
     fvAp.delete()
     session = LoginSession(apic, user, password, secure=secure)
     moDir = MoDirectory(session)
     moDir.login()
     cr = ConfigRequest()
     cr.addMo(fvTenant)
     r = moDir.commit(cr)
     assert r == []
Ejemplo n.º 7
0
 def test_tn_cleanup(self, apics, certobject, userobject):
     if userobject.user == 'rouser':
         return
     apic = apics[0]
     user = apics[2]
     password = apics[3]
     secure = False if apics[1] == 'False' else True
     uni = Uni('')
     fvTenant = Tenant(uni, name='t')
     fvTenant.delete()
     fvBD = BD(fvTenant, 't-bd')
     fvBD.delete()
     fvAp = Ap(fvTenant, 't-app')
     fvAp.delete()
     session = LoginSession(apic, user, password, secure=secure)
     moDir = MoDirectory(session)
     moDir.login()
     cr = ConfigRequest()
     cr.addMo(fvTenant)
     r = moDir.commit(cr)
     assert r.status_code == 200
def create_static_path(tenant_name, app_name, epg_name, path_name, encap_id,
                       mode_name):
    vlan_id = 'vlan-' + encap_id
    uni_mo = moDir.lookupByDn('uni')
    tenant_mo = Tenant(uni_mo, tenant_name)
    app_mo = Ap(tenant_mo, app_name)
    epg_mo = AEPg(app_mo, epg_name)
    rspathatt_mo = RsPathAtt(epg_mo,
                             tDn=path_name,
                             instrImedcy=u'immediate',
                             encap=vlan_id,
                             mode=mode_name)
    config = ConfigRequest()
    config.addMo(tenant_mo)
    moDir.commit(config)
Ejemplo n.º 9
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def create_application(modir, tenant_name, application_name, **args):
    """Create an application profile"""

    # Query a tenant
    fv_tenant = modir.lookupByDn('uni/tn-' + tenant_name)
    args = args['args_from_CLI'] if 'args_from_CLI' in args.keys() else args
    if isinstance(fv_tenant, Tenant):
        # Create the Application profile
        fv_ap = Ap(fv_tenant,
                   application_name,
                   prio=get_value(args, 'prio', 'unspecified').lower())
    else:
        print 'Tenant', tenant_name, 'does not exist. Please create a tenant first.'
        return

    print_query_xml(fv_tenant)
    commit_change(modir, fv_tenant)
Ejemplo n.º 10
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def create_3tier_application(modir, tenant_name):
    policy_universe = modir.lookupByDn('uni')
    fv_tenant = Tenant(policy_universe, tenant_name)

    # create context
    fv_ctx = Ctx(fv_tenant, CTX_NAME)

    #
    fv_bd = BD(fv_tenant, 'BD1')

    #
    fv_rs_ctx = RsCtx(fv_bd)
    fv_rs_ctx.__setattr__('tnFvCtxName', 'Apple-Router')
    fv_subnet_10 = Subnet(fv_bd,'10.0.0.1/24', scope='public')
    fv_subnet_20 = Subnet(fv_bd, '20.0.0.1/24', scope='public')
    fv_subnet_30 = Subnet(fv_bd, '30.0.0.1/24', scope='public')
    fv_subnet_40 = Subnet(fv_bd, '40.0.0.1/24', scope='public')

    #
    fv_ap = Ap(fv_tenant, '3-TierApp')

    fv_aepg_client = AEPg(fv_ap, 'Client')
    fv_rs_bd_client = RsBd(fv_aepg_client, tnFvBDName='BD1')
#    fv_rs_bd_client.__setattr__('tnFvBDName', 'BD1')
    fv_rs_cons_webct_client = RsCons(fv_aepg_client, 'WebCt')

    fv_aepg_web = AEPg(fv_ap, 'Web')
    fv_rs_bd_web = RsBd(fv_aepg_web, tnFvBDName='BD1')
    fv_rs_cons_webct_web = RsProv(fv_aepg_web, 'WebCt')
    fv_rs_cons_appct_web = RsCons(fv_aepg_web, 'AppCt')

    fv_aepg_app = AEPg(fv_ap, 'App')
    fv_rs_bd_app = RsBd(fv_aepg_app, tnFvBDName='DB1')
    fv_rs_cons_webct_app = RsProv(fv_aepg_app, 'WebCt')
    fv_rs_cons_appct_app = RsCons(fv_aepg_app, 'AppCt')

    fv_aepg_db = AEPg(fv_ap, 'DB')
    fv_rs_bd_db = RsBd(fv_aepg_db, tnFvBDName='BD1')
    fv_rs_prov_db = RsProv(fv_aepg_db, 'DbCt')

    print toXMLStr(policy_universe, prettyPrint=True)
    # Commit the change using a ConfigRequest object
    configReq = ConfigRequest()
    configReq.addMo(policy_universe)
    modir.commit(configReq)
Ejemplo n.º 11
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def setupApp(spec, apicMoDir, gwConfig):
    logging.debug('Inside setupApp function')
    # create an app prof if it does not exist.
    appName = spec['app-prof']
    tenant = spec['tenant']
    tenMo = tenantDict[tenant]
    epgList = spec['epgs']

    logging.debug('Nodes : %s' % gwConfig.nodes)
    logging.debug('Paths : %s' % gwConfig.paths)

    physDom = gwConfig.physDom
    vmmDom = gwConfig.vmmDom
    if physDom == "not_specified" and vmmDom == "not_specified":
        return ['failed', 'Physical and VMM domain not specified']

    # Check if the APIC already knows about this application profile
    # within this tenant context
    appProfDn = formAppProfDn(tenant, appName)
    exists, fvApMo = checkDnExists(apicMoDir, appProfDn)
    if exists:
        # The appProfile already exists in the APIC. Stash what we got.
        logging.info('App-prof %s,%s already exists.' % (tenant, appName))
        appDict[appName] = fvApMo
    else:
        logging.info('Creating application profile %s in tenant %s' % (appName, tenant))
        fvApMo = Ap(tenMo, appName)
        appDict[appName] = fvApMo

    cR = ConfigRequest()
    cR.addMo(fvApMo)

    # Walk the EPG list and create them.
    for epg in epgList:
        # Get the bridge domain for this epg, will create if needed
        comTen = gwConfig.includeCommonTenant
        bdName = getBridgeDomain(tenant, epg, apicMoDir, comTen)
        epgName = epg['name']
        fvEpg = AEPg(fvApMo, epgName)
        # associate to BD
        RsBd(fvEpg, tnFvBDName=bdName)
        vlan = epg['vlan-tag']
        encapid = 'vlan-' + vlan
        
        if vmmDom != "not_specified":
            # associate to vmm domain
            logging.info("VMM Domain: {}".format(vmmDom))
            contivClusterDom = 'uni/vmmp-VMware/dom-' + vmmDom
            logging.debug("Bind VMM : {} on {}".format(vmmDom, encapid))
            rsDomAtt = RsDomAtt(fvEpg, tDn=contivClusterDom, instrImedcy='immediate', encap=encapid, resImedcy='immediate')
            SecP(rsDomAtt, forgedTransmits='accept', allowPromiscuous='accept', macChanges='accept')
        
        if physDom != "not_specified":
            # associate to phy domain
            contivClusterDom = 'uni/phys-' + physDom
            RsDomAtt(fvEpg, contivClusterDom)
            # TODO: add static binding
            logging.info('Nodes : %s' % gwConfig.nodes)
            for leaf in gwConfig.nodes:
                logging.debug('Bind Leaf : %s' % leaf)
                RsNodeAtt(fvEpg, tDn=leaf, encap=encapid)

            logging.info('Paths : %s' % gwConfig.paths)
            for path in gwConfig.paths:
                logging.debug('Path = %s' % path)
                RsPathAtt(fvEpg, tDn=path, instrImedcy='immediate', encap=encapid)

    apicMoDir.commit(cR)

    enforce = gwConfig.enforcePolicies
    if enforce.lower() == "no":
        logging.info('Setting up EPG in un-enforced mode.')
        setupUnenforcedMode(spec, apicMoDir)
    else:
        logging.debug('Establishing policy contracts.')
        addDefinedContracts(spec, apicMoDir)
        logging.debug('Establishing consumer/provider links.')
        ret = addContractLinks(spec, apicMoDir)
        if ret[0] != 'success':
            return ret

    return ['success', 'ok']
    print("Creating tenant %s.." % (tenant['name']))
    fvTenantMo = Tenant(uniMo, tenant['name'])

    # Create Private Network
    Ctx(fvTenantMo, tenant['ctx'])

    # Create Bridge Domain
    fvBDMo = BD(fvTenantMo, name=tenant['bd'])

    # Create association to private network
    RsCtx(fvBDMo, tnFvCtxName=tenant['ctx'])

    # Create Application Profile
    for app in tenant['ap']:
        print('Creating Application Profile: %s' % app['name'])
        fvApMo = Ap(fvTenantMo, app['name'])

        # Create EPGs
        for epg in app['epgs']:

            print("Creating EPG: %s..." % (epg['name']))
            fvAEPgMo = AEPg(fvApMo, epg['name'])

            # Associate EPG to Bridge Domain
            RsBd(fvAEPgMo, tnFvBDName=tenant['bd'])

    # Commit each tenant separately
    tenantCfg = ConfigRequest()
    tenantCfg.addMo(fvTenantMo)
    moDir.commit(tenantCfg)
print('All tenants created.\n**')
Ejemplo n.º 13
0
def main(host, port, user, password):

    # CONNECT TO APIC
    print('Initializing connection to APIC...')
    apicUrl = 'http://%s:%d' % (host, port)
    moDir = MoDirectory(LoginSession(apicUrl, user, password))
    moDir.login()

    # Get the top level Policy Universe Directory
    uniMo = moDir.lookupByDn('uni')
    uniInfraMo = moDir.lookupByDn('uni/infra')

    # Create Vlan Namespace
    nsInfo = VMM_DOMAIN_INFO['namespace']
    print("Creating namespace %s.." % (nsInfo['name']))
    fvnsVlanInstPMo = VlanInstP(uniInfraMo, nsInfo['name'], 'dynamic')
    #fvnsArgs = {'from': nsInfo['from'], 'to': nsInfo['to']}
    EncapBlk(fvnsVlanInstPMo, nsInfo['from'], nsInfo['to'], name=nsInfo['name'])
    
    nsCfg = ConfigRequest()
    nsCfg.addMo(fvnsVlanInstPMo)
    moDir.commit(nsCfg)

    # Create VMM Domain
    print('Creating VMM domain...')

    vmmpVMwareProvPMo = moDir.lookupByDn('uni/vmmp-VMware')
    vmmDomPMo = DomP(vmmpVMwareProvPMo, VMM_DOMAIN_INFO['name'])
    
    vmmUsrMo = []
    for usrp in VMM_DOMAIN_INFO['usrs']:
        usrMo = UsrAccP(vmmDomPMo, usrp['name'], usr=usrp['usr'],
                        pwd=usrp['pwd'])
        vmmUsrMo.append(usrMo)

    # Create Controllers under domain
    for ctrlr in VMM_DOMAIN_INFO['ctrlrs']:
        vmmCtrlrMo = CtrlrP(vmmDomPMo, ctrlr['name'], scope=ctrlr['scope'],
                            hostOrIp=ctrlr['ip'])
        # Associate Ctrlr to UserP
        RsAcc(vmmCtrlrMo, tDn=vmmUsrMo[0].dn)
    
    # Associate Domain to Namespace
    RsVlanNs(vmmDomPMo, tDn=fvnsVlanInstPMo.dn)
   
    vmmCfg = ConfigRequest()
    vmmCfg.addMo(vmmDomPMo)
    moDir.commit(vmmCfg)
    print("VMM Domain Creation Completed.")

    print("Starting Tenant Creation..")
    for tenant in TENANT_INFO:
        print("Creating tenant %s.." % (tenant['name']))
        fvTenantMo = Tenant(uniMo, tenant['name'])
        
        # Create Private Network
        Ctx(fvTenantMo, tenant['pvn'])
        
        # Create Bridge Domain
        fvBDMo = BD(fvTenantMo, name=tenant['bd'])
        
        # Create association to private network
        RsCtx(fvBDMo, tnFvCtxName=tenant['pvn'])
        
        # Create Application Profile
        for app in tenant['ap']:
            print('Creating Application Profile: %s' % app['name'])
            fvApMo = Ap(fvTenantMo, app['name'])
            
            # Create EPGs 
            for epg in app['epgs']:
                
                print("Creating EPG: %s..." % (epg['name'])) 
                fvAEPgMo = AEPg(fvApMo, epg['name'])
                
                # Associate EPG to Bridge Domain 
                RsBd(fvAEPgMo, tnFvBDName=tenant['bd'])
                # Associate EPG to VMM Domain
                RsDomAtt(fvAEPgMo, vmmDomPMo.dn)

        # Commit each tenant seperately
        tenantCfg = ConfigRequest()
        tenantCfg.addMo(fvTenantMo)
        moDir.commit(tenantCfg)
    print('All done!')
Ejemplo n.º 14
0
        print "Creating Tenant [{}]".format(tenant.getName())
        fvTenantMo = Tenant(uniMo, tenant.getName(), descr=tenant.getDesc())

        for vrf in tenant.getVrfs():
            print "Creating VRF [{}]".format(vrf.getName())
            Ctx(fvTenantMo, vrf.getName(), descr=vrf.getDesc())

            for bd in vrf.getBds():
                print "Creating BD [{}]".format(bd.getName())
                fvBDMo = BD(fvTenantMo, bd.getName(), descr=bd.getDesc())
                # Create association to VRF
                RsCtx(fvBDMo, tnFvCtxName=vrf.getName())

            for ap in vrf.getAppProfiles():
                print "Creating App Profile [{}]".format(ap.getName())
                fvApMo = Ap(fvTenantMo, ap.getName(), descr=ap.getDesc())

                for epg in ap.getEpgs():
                    print "Creating EPG [{}]".format(epg.getName())
                    fvAEPgMo = AEPg(fvApMo, epg.getName(), descr=epg.getDesc())
                    # Associate EPG to Bridge Domain
                    RsBd(fvAEPgMo, tnFvBDName=epg.getBdName())
                    # Associate EPG to VMM Domain
                    #RsDomAtt(fvAEPgMo, vmmDomPMo.dn)

        tenantCfg = ConfigRequest()
        tenantCfg.addMo(fvTenantMo)
        print "tenantCfg data: " + tenantCfg.data
        md.commit(tenantCfg)

    md.logout()
Ejemplo n.º 15
0
def create_endpoint_groups(delete=''):
    epg_df = pd.read_excel("input-data/ACI_DD_Workbook.xlsx",
                           sheet_name='End_Point_Groups')
    file = open("EPG_Configuration.log", "w")
    logon = apic_logon()
    uniMo = logon.lookupByDn('uni')
    for index, row in epg_df.iterrows():
        fvTenant = Tenant(uniMo, row['Tenant'])
        fvAp = Ap(fvTenant, row['Application Profile'])
        if delete == 'yes':
            fvAEPg = AEPg(fvAp, name=row['Name'], status='deleted')
        else:
            fvAEPg = AEPg(fvAp,
                          name=row['EPG Name'],
                          description=row['EPG Description'],
                          prefGrMemb=row['prefGrMemb'])
            if pd.isnull(row['Associated Bridge Domain']) == False:
                fvRsBD = RsBd(fvAEPg,
                              tnFvBDName=row['Associated Bridge Domain'])
            if pd.isnull(row['Physical Domain']) == False:
                fvRsDomAtt = RsDomAtt(fvAEPg,
                                      tDn='uni/phys-%s' %
                                      row['Physical Domain'])
            if pd.isnull(row['Static Path']) == False:
                fvRsPathAtt = RsPathAtt(fvAEPg,
                                        tDn=row['Static Path'],
                                        encap='vlan-%s' % row['VLAN Encap'])
            if pd.isnull(row['Associated VMM1']) == False:
                fvRsDomAtt1 = RsDomAtt(fvAEPg,
                                       tDn='uni/vmmp-VMware/dom-' +
                                       row['Associated VMM1'],
                                       primaryEncap=u'unknown',
                                       classPref=u'encap',
                                       delimiter=u'',
                                       instrImedcy=u'lazy',
                                       encap=u'unknown',
                                       encapMode=u'auto',
                                       resImedcy=u'immediate')
                vmmSecP = SecP(fvRsDomAtt1,
                               ownerKey=u'',
                               name=u'',
                               descr=u'',
                               forgedTransmits=u'reject',
                               ownerTag=u'',
                               allowPromiscuous=u'reject',
                               macChanges=u'reject')
            if pd.isnull(row['Associated VMM2']) == False:
                fvRsDomAtt2 = RsDomAtt(fvAEPg,
                                       tDn='uni/vmmp-VMware/dom-' +
                                       row['Associated VMM2'],
                                       primaryEncap=u'unknown',
                                       classPref=u'encap',
                                       delimiter=u'',
                                       instrImedcy=u'lazy',
                                       encap=u'unknown',
                                       encapMode=u'auto',
                                       resImedcy=u'immediate')
                vmmSecP2 = SecP(fvRsDomAtt2,
                                ownerKey=u'',
                                name=u'',
                                descr=u'',
                                forgedTransmits=u'reject',
                                ownerTag=u'',
                                allowPromiscuous=u'reject',
                                macChanges=u'reject')
        cfgRequest = ConfigRequest()
        cfgRequest.addMo(fvAp)
        logon.commit(cfgRequest)
        json_data = toJSONStr(fvAp, prettyPrint=True)
        file.write(
            '\n-------------------------------------------------------------------\n'
        )
        file.write(json_data)
    file.close()
Ejemplo n.º 16
0
def config_app(moDir, tenant, name, descr):

    # Build Configuration Object
    ap_mo = Ap(tenant, name, descr)

    config_obj(moDir, ap_mo)
Ejemplo n.º 17
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def tenant_policy(host, user, password):
    print('[BEG] Tenant Configuration')
    moDir = apic_login(host, user, password)

    uniMo = moDir.lookupByDn('uni')

    fvTenantMo = Tenant(uniMo, 'Cobra-Demo')

    print('--- Building VRF(s)')
    # Create Private Network
    vrf1 = Ctx(fvTenantMo, "DC_INSIDE")
    vrf2 = Ctx(fvTenantMo, "DC_OUTISDE")

    print('--- Building Bridge Domain(s)')
    # Create Bridge Domain & Subnets
    fvBDMo1 = BD(fvTenantMo, "SERVER_BD1")
    fvSubnet = Subnet(fvBDMo1,
                      name=u'Sub1',
                      ip=u'106.0.1.1/24',
                      preferred=u'no',
                      virtual=u'no')
    fvSubnet = Subnet(fvBDMo1,
                      name=u'Sub2',
                      ip=u'106.0.2.1/24',
                      preferred=u'no',
                      virtual=u'no')

    print('--- Adding Subnets to Bridge Domain(s)')
    # Create Bridge Domain & Subnets
    fvBDMo2 = BD(fvTenantMo, "SERVER_BD2")
    fvSubnet = Subnet(fvBDMo2,
                      name=u'Sub3',
                      ip=u'106.0.3.1/24',
                      preferred=u'no',
                      virtual=u'no',
                      scope=u'public')
    fvSubnet = Subnet(fvBDMo2,
                      name=u'Sub4',
                      ip=u'106.0.4.1/24',
                      preferred=u'no',
                      virtual=u'yes')
    fvSubnet = Subnet(fvBDMo2,
                      name=u'Sub5',
                      ip=u'106.0.5.1/24',
                      preferred=u'no',
                      virtual=u'no',
                      scope=u'public')

    print('--- Adding Bridge Domain(s) to VRF(s)')
    # Create association to private network
    fv1RsCtx = RsCtx(fvBDMo1, tnFvCtxName=vrf1.name)
    fv2RsCtx = RsCtx(fvBDMo2, tnFvCtxName=vrf1.name)

    print('--- Building Web Filter')
    # Build Web Filters
    vzFilter1 = Filter(fvTenantMo, name=u'Web-Filters')
    vzEntry = Entry(vzFilter1,
                    applyToFrag=u'no',
                    dToPort=u'https',
                    prot=u'tcp',
                    stateful=u'no',
                    etherT=u'ip',
                    dFromPort=u'https',
                    name=u'https')
    vzEntry2 = Entry(vzFilter1,
                     applyToFrag=u'no',
                     dToPort=u'https',
                     prot=u'tcp',
                     stateful=u'no',
                     etherT=u'ip',
                     dFromPort=u'https',
                     name=u'https')

    print('--- Building App Filter')
    # Build App Filters
    vzFilter2 = Filter(fvTenantMo, name=u'App-Filters')
    vzEntry = Entry(vzFilter2,
                    applyToFrag=u'no',
                    dToPort=u'8080',
                    prot=u'tcp',
                    stateful=u'no',
                    etherT=u'ip',
                    dFromPort=u'8080',
                    name=u'tcp8080')
    vzEntry2 = Entry(vzFilter2,
                     dToPort=u'8443',
                     prot=u'tcp',
                     stateful=u'no',
                     etherT=u'ip',
                     dFromPort=u'8443',
                     name=u'tcp8443')

    print('--- Creating Contract(s)')
    #Create Contracts
    httpContract = BrCP(fvTenantMo, 'WEB')
    vzSubjMo = Subj(httpContract, 'Web-Ports')
    RsSubjFiltAtt(vzSubjMo, tnVzFilterName=vzFilter1.name)
    RsSubjFiltAtt(vzSubjMo, tnVzFilterName='icmp')

    appContract = BrCP(fvTenantMo, 'APP')
    vzSubjMo = Subj(appContract, 'App-Ports')
    RsSubjFiltAtt(vzSubjMo, tnVzFilterName=vzFilter2.name)
    RsSubjFiltAtt(vzSubjMo, tnVzFilterName='icmp')

    dbContract = BrCP(fvTenantMo, 'DB')
    vzSubjMo = Subj(dbContract, 'DB-Ports')
    RsSubjFiltAtt(vzSubjMo, tnVzFilterName='icmp')

    print('--- Creating Application Profile')
    #Create Application Profile
    fvApMo = Ap(fvTenantMo, 'DemoAppProfile')

    print('--- Building EPG: App')
    #Build AEPg APP
    fvAEPg1 = AEPg(fvApMo, 'APP')
    fvAEPgBD1 = RsBd(fvAEPg1, tnFvBDName=fvBDMo1.name)
    #Attach Static AEPg to Interface
    fvRsPathAtt1 = RsPathAtt(fvAEPg1,
                             tDn=u'topology/pod-1/paths-101/pathep-[eth1/15]',
                             primaryEncap=u'unknown',
                             instrImedcy=u'lazy',
                             mode=u'regular',
                             encap=u'vlan-2005')

    AppProv1 = RsProv(fvAEPg1, tnVzBrCPName=appContract.name)
    AppCons1 = RsCons(fvAEPg1, tnVzBrCPName=dbContract.name)

    print('--- Building EPG: Web')
    #Build AEPg WEB
    fvAEPg2 = AEPg(fvApMo, 'WEB')
    fvAEPgBD1 = RsBd(fvAEPg2, tnFvBDName=fvBDMo2.name)
    #Attach Static AEPg to Interface
    fvRsPathAtt2 = RsPathAtt(fvAEPg2,
                             tDn=u'topology/pod-1/paths-101/pathep-[eth1/16]',
                             primaryEncap=u'unknown',
                             instrImedcy=u'lazy',
                             mode=u'regular',
                             encap=u'vlan-2006')

    WebProv1 = RsProv(fvAEPg2, tnVzBrCPName=httpContract.name)
    WebCons1 = RsCons(fvAEPg2, tnVzBrCPName=appContract.name)

    print('--- Building EPG: DB')
    #Build AEPg DB
    fvAEPg3 = AEPg(fvApMo, 'DB')
    print('	--- Attaching DB to Bridge Domain: ' + fvBDMo2.name)
    fvAEPgBD1 = RsBd(fvAEPg3, tnFvBDName=fvBDMo2.name)
    #Attach Static AEPg to Interface
    fvRsPathAtt3 = RsPathAtt(fvAEPg3,
                             tDn=u'topology/pod-1/paths-101/pathep-[eth1/17]',
                             primaryEncap=u'unknown',
                             instrImedcy=u'lazy',
                             mode=u'regular',
                             encap=u'vlan-2007')

    DbProv1 = RsProv(fvAEPg3, tnVzBrCPName=dbContract.name)

    print('--- Building L3 Out')
    # Configure L3 Out
    l3extOut = Out(fvTenantMo, name=u'L3Ext-Cobra', enforceRtctrl=u'export')
    l3extRsEctx = RsEctx(l3extOut, tnFvCtxName=vrf1.name)
    l3extLNodeP = LNodeP(l3extOut, name=u'Leaf102')
    l3extRsNodeL3OutAtt = RsNodeL3OutAtt(l3extLNodeP,
                                         rtrIdLoopBack=u'no',
                                         rtrId=u'10.10.15.250',
                                         tDn=u'topology/pod-1/node-102')
    l3extLIfP = LIfP(l3extLNodeP, name=u'port1-Cobra')
    ospfIfP = IfP(l3extLIfP, authKeyId=u'1')
    ospfRsIfPol = RsIfPol(ospfIfP, tnOspfIfPolName=u'OSPF-P2P')
    l3extRsPathL3OutAtt = RsPathL3OutAtt(
        l3extLIfP,
        addr=u'10.10.100.9/30',
        encapScope=u'local',
        mode=u'regular',
        ifInstT=u'l3-port',
        mtu=u'1500',
        tDn=u'topology/pod-1/paths-102/pathep-[eth1/1]')

    l3extInstP = l3ext.InstP(l3extOut, name=u'L3-OUT-EPG')
    fvRsCons = RsCons(l3extInstP, tnVzBrCPName=httpContract.name)
    l3extSubnet = L3Sub(l3extInstP, ip=u'0.0.0.0/0')
    ospfExtP = ExtP(l3extOut,
                    areaCtrl=u'redistribute,summary',
                    areaId=u'0.0.0.1',
                    areaType=u'regular',
                    areaCost=u'1')
    BDAttL3Out1 = RsBDToOut(fvBDMo2, tnL3extOutName=l3extOut.name)

    cfg_commit(moDir, fvTenantMo)
    print('[END] Tenant Configuration')