def main(): argument_spec = aci_argument_spec() argument_spec.update( rtp=dict(type='str', required=False, aliases=['name', 'rtp_name']), # Not required for querying all objects tenant=dict(type='str', required=False, aliases=['tenant_name']), # Not required for quering all objects description=dict(type='str', aliases=['descr']), tag=dict(type='int'), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['rtp', 'tenant']], ['state', 'present', ['rtp', 'tenant']], ], ) rtp = module.params['rtp'] description = module.params['description'] tag = module.params['tag'] state = module.params['state'] tenant = module.params['tenant'] aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class='fvTenant', aci_rn='tn-{0}'.format(tenant), filter_target='eq(fvTenant.name, "{0}")'.format(tenant), module_object=tenant, ), subclass_1=dict( aci_class='l3extRouteTagPol', aci_rn='rttag-{0}'.format(rtp), filter_target='eq(l3extRouteTagPol.name, "{0}")'.format(rtp), module_object=rtp, ), ) aci.get_existing() if state == 'present': aci.payload( aci_class='l3extRouteTagPol', class_config=dict( name=rtp, descr=description, tag=tag, ), ) aci.get_diff(aci_class='l3extRouteTagPol') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( aep=dict(type='str', aliases=['name', 'aep_name']), # Not required for querying all objects description=dict(type='str', aliases=['descr']), infra_vlan=dict(type='bool', aliases=['infrastructure_vlan']), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['aep']], ['state', 'present', ['aep']], ], ) aep = module.params['aep'] description = module.params['description'] infra_vlan = module.params['infra_vlan'] state = module.params['state'] if infra_vlan: child_configs = [dict(infraProvAcc=dict(attributes=dict(name='provacc')))] elif infra_vlan is False: child_configs = [dict(infraProvAcc=dict(attributes=dict(name='provacc', status='deleted')))] else: child_configs = [] aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class='infraAttEntityP', aci_rn='infra/attentp-{0}'.format(aep), filter_target='eq(infraAttEntityP.name, "{0}")'.format(aep), module_object=aep, ), ) aci.get_existing() if state == 'present': aci.payload( aci_class='infraAttEntityP', class_config=dict( name=aep, descr=description, ), child_configs=child_configs, ) aci.get_diff(aci_class='infraAttEntityP') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( aaa_user=dict(type='str', required=True), # Not required for querying all objects aaa_user_type=dict(type='str', default='user', choices=['appuser', 'user']), certificate=dict(type='str', aliases=['cert_data', 'certificate_data']), # Not required for querying all objects certificate_name=dict(type='str', aliases=['cert_name']), # Not required for querying all objects state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['aaa_user', 'certificate_name']], ['state', 'present', ['aaa_user', 'certificate', 'certificate_name']], ], ) aaa_user = module.params['aaa_user'] aaa_user_type = module.params['aaa_user_type'] certificate = module.params['certificate'] certificate_name = module.params['certificate_name'] state = module.params['state'] aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class=ACI_MAPPING[aaa_user_type]['aci_class'], aci_rn=ACI_MAPPING[aaa_user_type]['aci_mo'] + aaa_user, filter_target='eq({0}.name, "{1}")'.format(ACI_MAPPING[aaa_user_type]['aci_class'], aaa_user), module_object=aaa_user, ), subclass_1=dict( aci_class='aaaUserCert', aci_rn='usercert-{0}'.format(certificate_name), filter_target='eq(aaaUserCert.name, "{0}")'.format(certificate_name), module_object=certificate_name, ), ) aci.get_existing() if state == 'present': aci.payload( aci_class='aaaUserCert', class_config=dict( data=certificate, name=certificate_name, ), ) aci.get_diff(aci_class='aaaUserCert') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( lldp_policy=dict(type='str', require=False, aliases=['name']), # Not required for querying all objects description=dict(type='str', aliases=['descr']), receive_state=dict(type='raw'), # Turn into a boolean in v2.9 transmit_state=dict(type='raw'), # Turn into a boolean in v2.9 state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['lldp_policy']], ['state', 'present', ['lldp_policy']], ], ) aci = ACIModule(module) lldp_policy = module.params['lldp_policy'] description = module.params['description'] receive_state = aci.boolean(module.params['receive_state'], 'enabled', 'disabled') transmit_state = aci.boolean(module.params['transmit_state'], 'enabled', 'disabled') state = module.params['state'] aci.construct_url( root_class=dict( aci_class='lldpIfPol', aci_rn='infra/lldpIfP-{0}'.format(lldp_policy), filter_target='eq(lldpIfPol.name, "{0}")'.format(lldp_policy), module_object=lldp_policy, ), ) aci.get_existing() if state == 'present': aci.payload( aci_class='lldpIfPol', class_config=dict( name=lldp_policy, descr=description, adminRxSt=receive_state, adminTxSt=transmit_state, ), ) aci.get_diff(aci_class='lldpIfPol') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( leaf_profile=dict(type='str', aliases=['leaf_profile_name']), # Not required for querying all objects interface_selector=dict(type='str', aliases=['interface_profile_name', 'interface_selector_name', 'name']), # Not required for querying all objects state=dict(type='str', default='present', choices=['absent', 'present', 'query']) ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['leaf_profile', 'interface_selector']], ['state', 'present', ['leaf_profile', 'interface_selector']] ], ) leaf_profile = module.params['leaf_profile'] # WARNING: interface_selector accepts non existing interface_profile names and they appear on APIC gui with a state of "missing-target" interface_selector = module.params['interface_selector'] state = module.params['state'] # Defining the interface profile tDn for clarity interface_selector_tDn = 'uni/infra/accportprof-{0}'.format(interface_selector) aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class='infraNodeP', aci_rn='infra/nprof-{0}'.format(leaf_profile), filter_target='eq(infraNodeP.name, "{0}")'.format(leaf_profile), module_object=leaf_profile ), subclass_1=dict( aci_class='infraRsAccPortP', aci_rn='rsaccPortP-[{0}]'.format(interface_selector_tDn), filter_target='eq(infraRsAccPortP.name, "{0}")'.format(interface_selector), module_object=interface_selector, ) ) aci.get_existing() if state == 'present': aci.payload( aci_class='infraRsAccPortP', class_config=dict(tDn=interface_selector_tDn), ) aci.get_diff(aci_class='infraRsAccPortP') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( port_security=dict(type='str', required=False, aliases=['name']), # Not required for querying all objects description=dict(type='str', aliases=['descr']), max_end_points=dict(type='int'), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['port_security']], ['state', 'present', ['port_security']], ], ) port_security = module.params['port_security'] description = module.params['description'] max_end_points = module.params['max_end_points'] if max_end_points is not None and max_end_points not in range(12001): module.fail_json(msg='The "max_end_points" must be between 0 and 12000') state = module.params['state'] aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class='l2PortSecurityPol', aci_rn='infra/portsecurityP-{0}'.format(port_security), filter_target='eq(l2PortSecurityPol.name, "{0}")'.format(port_security), module_object=port_security, ), ) aci.get_existing() if state == 'present': aci.payload( aci_class='l2PortSecurityPol', class_config=dict( name=port_security, descr=description, maximum=max_end_points, ), ) aci.get_diff(aci_class='l2PortSecurityPol') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( fc_policy=dict(type='str', required=False, aliases=['name']), # Not required for querying all objects description=dict(type='str', aliases=['descr']), port_mode=dict(type='str', choices=['f', 'np']), # No default provided on purpose state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['fc_policy']], ['state', 'present', ['fc_policy']], ], ) fc_policy = module.params['fc_policy'] port_mode = module.params['port_mode'] description = module.params['description'] state = module.params['state'] aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class='fcIfPol', aci_rn='infra/fcIfPol-{0}'.format(fc_policy), filter_target='eq(fcIfPol.name, "{0}")'.format(fc_policy), module_object=fc_policy, ), ) aci.get_existing() if state == 'present': aci.payload( aci_class='fcIfPol', class_config=dict( name=fc_policy, descr=description, portMode=port_mode, ), ) aci.get_diff(aci_class='fcIfPol') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( leaf_profile=dict(type='str', aliases=['name', 'leaf_profile_name']), # Not required for querying all objects description=dict(type='str', aliases=['descr']), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['leaf_profile']], ['state', 'present', ['leaf_profile']], ], ) leaf_profile = module.params['leaf_profile'] description = module.params['description'] state = module.params['state'] aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class='infraNodeP', aci_rn='infra/nprof-{0}'.format(leaf_profile), filter_target='eq(infraNodeP.name, "{0}")'.format(leaf_profile), module_object=leaf_profile, ), ) aci.get_existing() if state == 'present': aci.payload( aci_class='infraNodeP', class_config=dict( name=leaf_profile, descr=description, ), ) aci.get_diff(aci_class='infraNodeP') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( admin_state=dict(type='raw'), # Turn into a boolean in v2.9 description=dict(type='str', aliases=['descr']), dst_group=dict(type='str'), src_group=dict(type='str', required=False, aliases=['name' ]), # Not required for querying all objects state=dict(type='str', default='present', choices=['absent', 'present', 'query']), tenant=dict(type='str', required=False, aliases=['tenant_name' ]), # Not required for querying all objects method=dict(type='str', choices=['delete', 'get', 'post'], aliases=['action'], removed_in_version='2.6'), # Deprecated starting from v2.6 protocol=dict(type='str', removed_in_version='2.6'), # Deprecated in v2.6 ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['src_group', 'tenant']], ['state', 'present', ['src_group', 'tenant']], ], ) aci = ACIModule(module) admin_state = aci.boolean(module.params['admin_state'], 'enabled', 'disabled') description = module.params['description'] dst_group = module.params['dst_group'] src_group = module.params['src_group'] state = module.params['state'] tenant = module.params['tenant'] aci.construct_url( root_class=dict( aci_class='fvTenant', aci_rn='tn-{0}'.format(tenant), filter_target='eq(fvTenant.name, "{0}")'.format(tenant), module_object=tenant, ), subclass_1=dict( aci_class='spanSrcGrp', aci_rn='srcgrp-{0}'.format(src_group), filter_target='eq(spanSrcGrp.name, "{0}")'.format(src_group), module_object=src_group, ), child_classes=['spanSpanLbl'], ) aci.get_existing() if state == 'present': # Filter out module parameters with null values aci.payload( aci_class='spanSrcGrp', class_config=dict( adminSt=admin_state, descr=description, name=src_group, ), child_configs=[{ 'spanSpanLbl': { 'attributes': { 'name': dst_group } } }], ) # Generate config diff which will be used as POST request body aci.get_diff(aci_class='spanSrcGrp') # Submit changes if module not in check_mode and the proposed is different than existing aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( action_rule=dict(type='str', required=False, aliases=['action_rule_name', 'name' ]), # Not required for querying all objects tenant=dict(type='str', required=False, aliases=['tenant_name' ]), # Not required for querying all objects description=dict(type='str', aliases=['descr']), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['action_rule', 'tenant']], ['state', 'present', ['action_rule', 'tenant']], ], ) action_rule = module.params['action_rule'] description = module.params['description'] state = module.params['state'] tenant = module.params['tenant'] aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class='fvTenant', aci_rn='tn-{0}'.format(tenant), module_object=tenant, target_filter={'name': tenant}, ), subclass_1=dict( aci_class='rtctrlAttrP', aci_rn='attr-{0}'.format(action_rule), module_object=action_rule, target_filter={'name': action_rule}, ), ) aci.get_existing() if state == 'present': aci.payload( aci_class='rtctrlAttrP', class_config=dict( name=action_rule, descr=description, ), ) aci.get_diff(aci_class='rtctrlAttrP') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( l2_policy=dict(type='str', required=False, aliases=['name']), # Not required for querying all policies description=dict(type='str', aliases=['descr']), vlan_scope=dict(type='str', choices=['global', 'portlocal']), # No default provided on purpose qinq=dict(type='str', choices=['core', 'disabled', 'edge']), vepa=dict(type='raw'), # Turn into a boolean in v2.9 state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['l2_policy']], ['state', 'present', ['l2_policy']], ], ) aci = ACIModule(module) l2_policy = module.params['l2_policy'] vlan_scope = module.params['vlan_scope'] qinq = module.params['qinq'] if qinq is not None: qinq = QINQ_MAPPING[qinq] vepa = aci.boolean(module.params['vepa'], 'enabled', 'disabled') description = module.params['description'] state = module.params['state'] aci.construct_url( root_class=dict( aci_class='l2IfPol', aci_rn='infra/l2IfP-{0}'.format(l2_policy), filter_target='eq(l2IfPol.name, "{0}")'.format(l2_policy), module_object=l2_policy, ), ) aci.get_existing() if state == 'present': aci.payload( aci_class='l2IfPol', class_config=dict( name=l2_policy, descr=description, vlanScope=vlan_scope, qinq=qinq, vepa=vepa, ), ) aci.get_diff(aci_class='l2IfPol') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( policy_group=dict(type='str', aliases=['name', 'policy_group_name']), # Not required for querying all objects description=dict(type='str', aliases=['descr']), # NOTE: Since this module needs to include both infra:AccBndlGrp (for PC and VPC) and infra:AccPortGrp (for leaf access port policy group): # NOTE: I'll allow the user to make the choice here (link(PC), node(VPC), leaf(leaf-access port policy group)) lag_type=dict(type='str', aliases=['lag_type_name'], choices=['leaf', 'link', 'node']), # Not required for querying all objects link_level_policy=dict(type='str', aliases=['link_level_policy_name']), cdp_policy=dict(type='str', aliases=['cdp_policy_name']), mcp_policy=dict(type='str', aliases=['mcp_policy_name']), lldp_policy=dict(type='str', aliases=['lldp_policy_name']), stp_interface_policy=dict(type='str', aliases=['stp_interface_policy_name']), egress_data_plane_policing_policy=dict(type='str', aliases=['egress_data_plane_policing_policy_name']), ingress_data_plane_policing_policy=dict(type='str', aliases=['ingress_data_plane_policing_policy_name']), priority_flow_control_policy=dict(type='str', aliases=['priority_flow_control_policy_name']), fibre_channel_interface_policy=dict(type='str', aliases=['fibre_channel_interface_policy_name']), slow_drain_policy=dict(type='str', aliases=['slow_drain_policy_name']), port_channel_policy=dict(type='str', aliases=['port_channel_policy_name']), monitoring_policy=dict(type='str', aliases=['monitoring_policy_name']), storm_control_interface_policy=dict(type='str', aliases=['storm_control_interface_policy_name']), l2_interface_policy=dict(type='str', aliases=['l2_interface_policy_name']), port_security_policy=dict(type='str', aliases=['port_security_policy_name']), aep=dict(type='str', aliases=['aep_name']), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['lag_type', 'policy_group']], ['state', 'present', ['lag_type', 'policy_group']], ], ) policy_group = module.params['policy_group'] description = module.params['description'] lag_type = module.params['lag_type'] link_level_policy = module.params['link_level_policy'] cdp_policy = module.params['cdp_policy'] mcp_policy = module.params['mcp_policy'] lldp_policy = module.params['lldp_policy'] stp_interface_policy = module.params['stp_interface_policy'] egress_data_plane_policing_policy = module.params['egress_data_plane_policing_policy'] ingress_data_plane_policing_policy = module.params['ingress_data_plane_policing_policy'] priority_flow_control_policy = module.params['priority_flow_control_policy'] fibre_channel_interface_policy = module.params['fibre_channel_interface_policy'] slow_drain_policy = module.params['slow_drain_policy'] port_channel_policy = module.params['port_channel_policy'] monitoring_policy = module.params['monitoring_policy'] storm_control_interface_policy = module.params['storm_control_interface_policy'] l2_interface_policy = module.params['l2_interface_policy'] port_security_policy = module.params['port_security_policy'] aep = module.params['aep'] state = module.params['state'] if lag_type == 'leaf': aci_class_name = 'infraAccPortGrp' dn_name = 'accportgrp' class_config_dict = dict( name=policy_group, descr=description, ) elif lag_type == 'link' or lag_type == 'node': aci_class_name = 'infraAccBndlGrp' dn_name = 'accbundle' class_config_dict = dict( name=policy_group, descr=description, lagT=lag_type, ) aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class=aci_class_name, aci_rn='infra/funcprof/{0}-{1}'.format(dn_name, policy_group), filter_target='eq({0}.name, "{1}")'.format(aci_class_name, policy_group), module_object=policy_group, ), child_classes=[ 'infraRsAttEntP', 'infraRsCdpIfPol', 'infraRsFcIfPol', 'infraRsHIfPol', 'infraRsL2IfPol', 'infraRsL2PortSecurityPol', 'infraRsLacpPol', 'infraRsLldpIfPol', 'infraRsMcpIfPol', 'infraRsMonIfInfraPol', 'infraRsQosEgressDppIfPol', 'infraRsQosIngressDppIfPol', 'infraRsQosPfcIfPol', 'infraRsQosSdIfPol', 'infraRsStormctrlIfPol', 'infraRsStpIfPol', ], ) aci.get_existing() if state == 'present': aci.payload( aci_class=aci_class_name, class_config=class_config_dict, child_configs=[ dict( infraRsAttEntP=dict( attributes=dict( tDn='uni/infra/attentp-{0}'.format(aep), ), ), ), dict( infraRsCdpIfPol=dict( attributes=dict( tnCdpIfPolName=cdp_policy, ), ), ), dict( infraRsFcIfPol=dict( attributes=dict( tnFcIfPolName=fibre_channel_interface_policy, ), ), ), dict( infraRsHIfPol=dict( attributes=dict( tnFabricHIfPolName=link_level_policy, ), ), ), dict( infraRsL2IfPol=dict( attributes=dict( tnL2IfPolName=l2_interface_policy, ), ), ), dict( infraRsL2PortSecurityPol=dict( attributes=dict( tnL2PortSecurityPolName=port_security_policy, ), ), ), dict( infraRsLacpPol=dict( attributes=dict( tnLacpLagPolName=port_channel_policy, ), ), ), dict( infraRsLldpIfPol=dict( attributes=dict( tnLldpIfPolName=lldp_policy, ), ), ), dict( infraRsMcpIfPol=dict( attributes=dict( tnMcpIfPolName=mcp_policy, ), ), ), dict( infraRsMonIfInfraPol=dict( attributes=dict( tnMonInfraPolName=monitoring_policy, ), ), ), dict( infraRsQosEgressDppIfPol=dict( attributes=dict( tnQosDppPolName=egress_data_plane_policing_policy, ), ), ), dict( infraRsQosIngressDppIfPol=dict( attributes=dict( tnQosDppPolName=ingress_data_plane_policing_policy, ), ), ), dict( infraRsQosPfcIfPol=dict( attributes=dict( tnQosPfcIfPolName=priority_flow_control_policy, ), ), ), dict( infraRsQosSdIfPol=dict( attributes=dict( tnQosSdIfPolName=slow_drain_policy, ), ), ), dict( infraRsStormctrlIfPol=dict( attributes=dict( tnStormctrlIfPolName=storm_control_interface_policy, ), ), ), dict( infraRsStpIfPol=dict( attributes=dict( tnStpIfPolName=stp_interface_policy, ), ), ), ], ) aci.get_diff(aci_class=aci_class_name) aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( monitoring_policy=dict( type='str', required=False, aliases=['name']), # Not required for querying all objects tenant=dict(type='str', required=False, aliases=['tenant_name' ]), # Not required for querying all objects description=dict(type='str', aliases=['descr']), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), method=dict(type='str', choices=['delete', 'get', 'post'], aliases=['action'], removed_in_version='2.6'), # Deprecated starting from v2.6 protocol=dict(type='str', removed_in_version='2.6'), # Deprecated in v2.6 ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['monitoring_policy', 'tenant']], ['state', 'present', ['monitoring_policy', 'tenant']], ], ) monitoring_policy = module.params['monitoring_policy'] description = module.params['description'] state = module.params['state'] tenant = module.params['tenant'] aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class='fvTenant', aci_rn='tn-{0}'.format(tenant), filter_target='eq(fvTenant.name, "{0}")'.format(tenant), module_object=tenant, ), subclass_1=dict( aci_class='monEPGPol', aci_rn='monepg-{0}'.format(monitoring_policy), filter_target='eq(monEPGPol.name, "{0}")'.format( monitoring_policy), module_object=monitoring_policy, ), ) aci.get_existing() if state == 'present': # Filter out module parameters with null values aci.payload( aci_class='monEPGPol', class_config=dict( name=monitoring_policy, descr=description, ), ) # Generate config diff which will be used as POST request body aci.get_diff(aci_class='monEPGPol') # Submit changes if module not in check_mode and the proposed is different than existing aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( protection_group=dict(type='str', aliases=['name', 'protection_group_name']), # Not required for querying all objects protection_group_id=dict(type='int', aliases=['id']), vpc_domain_policy=dict(type='str', aliases=['vpc_domain_policy_name']), switch_1_id=dict(type='int'), switch_2_id=dict(type='int'), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['protection_group']], ['state', 'present', ['protection_group', 'protection_group_id', 'switch_1_id', 'switch_2_id']], ], ) protection_group = module.params['protection_group'] protection_group_id = module.params['protection_group_id'] vpc_domain_policy = module.params['vpc_domain_policy'] switch_1_id = module.params['switch_1_id'] switch_2_id = module.params['switch_2_id'] state = module.params['state'] aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class='fabricExplicitGEp', aci_rn='fabric/protpol/expgep-{0}'.format(protection_group), filter_target='eq(fabricExplicitGEp.name, "{0}")'.format(protection_group), module_object=protection_group, ), child_classes=['fabricNodePEp', 'fabricNodePEp', 'fabricRsVpcInstPol'], ) aci.get_existing() if state == 'present': aci.payload( aci_class='fabricExplicitGEp', class_config=dict( name=protection_group, id=protection_group_id, rn='expgep-{0}'.format(protection_group), ), child_configs=[ dict( fabricNodePEp=dict( attributes=dict( id='{0}'.format(switch_1_id), rn='nodepep-{0}'.format(switch_1_id), ), ), ), dict( fabricNodePEp=dict( attributes=dict( id='{0}'.format(switch_2_id), rn='nodepep-{0}'.format(switch_2_id), ), ), ), dict( fabricRsVpcInstPol=dict( attributes=dict( tnVpcInstPolName=vpc_domain_policy, ), ), ), ], ) aci.get_diff(aci_class='fabricExplicitGEp') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( description=dict(type='str', aliases=['descr']), pool=dict(type='str', aliases=['name', 'pool_name']), # Not required for querying all objects pool_allocation_mode=dict(type='str', aliases=['allocation_mode', 'mode'], choices=['dynamic', 'static']), pool_type=dict(type='str', aliases=['type'], choices=['vlan', 'vxlan', 'vsan'], required=True), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['pool']], ['state', 'present', ['pool']], ], ) description = module.params['description'] pool = module.params['pool'] pool_type = module.params['pool_type'] pool_allocation_mode = module.params['pool_allocation_mode'] state = module.params['state'] aci_class = ACI_MAPPING[pool_type]["aci_class"] aci_mo = ACI_MAPPING[pool_type]["aci_mo"] pool_name = pool # ACI Pool URL requires the pool_allocation mode for vlan and vsan pools (ex: uni/infra/vlanns-[poolname]-static) if pool_type != 'vxlan' and pool is not None: if pool_allocation_mode is not None: pool_name = '[{0}]-{1}'.format(pool, pool_allocation_mode) else: module.fail_json(msg="ACI requires parameter 'pool_allocation_mode' for 'pool_type' of 'vlan' and 'vsan' when parameter 'pool' is provided") # Vxlan pools do not support pool allocation modes if pool_type == 'vxlan' and pool_allocation_mode is not None: module.fail_json(msg="vxlan pools do not support setting the 'pool_allocation_mode'; please remove this parameter from the task") aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class=aci_class, aci_rn='{0}{1}'.format(aci_mo, pool_name), filter_target='eq({0}.name, "{1}")'.format(aci_class, pool), module_object=pool, ), ) aci.get_existing() if state == 'present': # Filter out module parameters with null values aci.payload( aci_class=aci_class, class_config=dict( allocMode=pool_allocation_mode, descr=description, name=pool, ) ) # Generate config diff which will be used as POST request body aci.get_diff(aci_class=aci_class) # Submit changes if module not in check_mode and the proposed is different than existing aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( contract=dict(type='str', aliases=['contract_name']), subject=dict(type='str', aliases=['contract_subject', 'name', 'subject_name']), tenant=dict(type='str', aliases=['tenant_name']), priority=dict(type='str', choices=['unspecified', 'level1', 'level2', 'level3']), reverse_filter=dict(type='str', choices=['yes', 'no']), dscp=dict(type='str', aliases=['target']), description=dict(type='str', aliases=['descr']), consumer_match=dict( type='str', choices=['all', 'at_least_one', 'at_most_one', 'none']), provider_match=dict( type='str', choices=['all', 'at_least_one', 'at_most_one', 'none']), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), method=dict(type='str', choices=['delete', 'get', 'post'], aliases=['action'], removed_in_version='2.6'), # Deprecated starting from v2.6 directive=dict( type='str', removed_in_version='2.4'), # Deprecated starting from v2.4 filter=dict(type='str', aliases=['filter_name'], removed_in_version='2.4'), # Deprecated starting from v2.4 ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['contract', 'subject', 'tenant']], ['state', 'present', ['contract', 'subject', 'tenant']], ], ) subject = module.params['subject'] priority = module.params['priority'] reverse_filter = module.params['reverse_filter'] contract = module.params['contract'] dscp = module.params['dscp'] description = module.params['description'] filter_name = module.params['filter'] directive = module.params['directive'] consumer_match = module.params['consumer_match'] if consumer_match is not None: consumer_match = MATCH_MAPPING[consumer_match] provider_match = module.params['provider_match'] if provider_match is not None: provider_match = MATCH_MAPPING[provider_match] state = module.params['state'] tenant = module.params['tenant'] if directive is not None or filter_name is not None: module.fail_json( msg= "Managing Contract Subjects to Filter bindings has been moved to module 'aci_subject_bind_filter'" ) aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class='fvTenant', aci_rn='tn-{0}'.format(tenant), filter_target='eq(fvTenant.name, "{0}")'.format(tenant), module_object=tenant, ), subclass_1=dict( aci_class='vzBrCP', aci_rn='brc-{0}'.format(contract), filter_target='eq(vzBrCP.name, "{0}")'.format(contract), module_object=contract, ), subclass_2=dict( aci_class='vzSubj', aci_rn='subj-{0}'.format(subject), filter_target='eq(vzSubj.name, "{0}")'.format(subject), module_object=subject, ), ) aci.get_existing() if state == 'present': # Filter out module parameters with null values aci.payload( aci_class='vzSubj', class_config=dict( name=subject, prio=priority, revFltPorts=reverse_filter, targetDscp=dscp, consMatchT=consumer_match, provMatchT=provider_match, descr=description, ), ) # Generate config diff which will be used as POST request body aci.get_diff(aci_class='vzSubj') # Submit changes if module not in check_mode and the proposed is different than existing aci.post_config() elif state == 'absent': aci.delete_config() module.exit_json(**aci.result)
def main(): argument_spec = aci_argument_spec argument_spec.update( bd=dict(type='str', aliases=['bd_name']), description=dict(type='str', aliases=['descr']), enable_vip=dict(type='str', choices=['no', 'yes']), gateway=dict(type='str', aliases=['gateway_ip']), mask=dict(type='int', aliases=['subnet_mask']), subnet_name=dict(type='str', aliases=['name']), nd_prefix_policy=dict(type='str'), preferred=dict(type='str', choices=['no', 'yes']), route_profile=dict(type='str'), route_profile_l3_out=dict(type='str'), scope=dict( type='list', choices=[['private'], ['public'], ['shared'], ['private', 'shared'], ['shared', 'private'], ['public', 'shared'], ['shared', 'public']], ), subnet_control=dict( type='str', choices=['nd_ra', 'no_gw', 'querier_ip', 'unspecified']), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), tenant=dict(type='str', aliases=['tenant_name']), method=dict(type='str', choices=['delete', 'get', 'post'], aliases=['action'], removed_in_version='2.6'), # Deprecated starting from v2.6 ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_together=[['gateway', 'mask']], required_if=[ ['state', 'present', ['bd', 'gateway', 'mask', 'tenant']], ['state', 'absent', ['bd', 'gateway', 'mask', 'tenant']], ], ) description = module.params['description'] enable_vip = module.params['enable_vip'] tenant = module.params['tenant'] bd = module.params['bd'] gateway = module.params['gateway'] mask = module.params['mask'] if mask is not None and mask not in range(0, 129): # TODO: split checkes between IPv4 and IPv6 Addresses module.fail_json( msg= 'Valid Subnet Masks are 0 to 32 for IPv4 Addresses and 0 to 128 for IPv6 addresses' ) if gateway is not None: gateway = '{}/{}'.format(gateway, str(mask)) subnet_name = module.params['subnet_name'] nd_prefix_policy = module.params['nd_prefix_policy'] preferred = module.params['preferred'] route_profile = module.params['route_profile'] route_profile_l3_out = module.params['route_profile_l3_out'] scope = module.params['scope'] if scope: if len(scope) == 1: scope = scope[0] elif 'public' in scope: scope = 'public,shared' else: scope = 'private,shared' state = module.params['state'] subnet_control = module.params['subnet_control'] if subnet_control: subnet_control = SUBNET_CONTROL_MAPPING[subnet_control] aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class='fvTenant', aci_rn='tn-{}'.format(tenant), filter_target='eq(fvTenant.name, \"{}\")'.format(tenant), module_object=tenant, ), subclass_1=dict( aci_class='fvBD', aci_rn='BD-{}'.format(bd), filter_target='eq(fvBD.name, \"{}\")'.format(bd), module_object=bd, ), subclass_2=dict( aci_class='fvSubnet', aci_rn='subnet-[{}]'.format(gateway), filter_target='eq(fvSubnet.ip, \"{}\")'.format(gateway), module_object=gateway, ), child_classes=['fvRsBDSubnetToProfile', 'fvRsNdPfxPol'], ) aci.get_existing() if state == 'present': # Filter out module params with null values aci.payload( aci_class='fvSubnet', class_config=dict( ctrl=subnet_control, descr=description, ip=gateway, name=subnet_name, preferred=preferred, scope=scope, virtual=enable_vip, ), child_configs=[ { 'fvRsBDSubnetToProfile': { 'attributes': { 'tnL3extOutName': route_profile_l3_out, 'tnRtctrlProfileName': route_profile } } }, { 'fvRsNdPfxPol': { 'attributes': { 'tnNdPfxPolName': nd_prefix_policy } } }, ], ) # Generate config diff which will be used as POST request body aci.get_diff(aci_class='fvSubnet') # Submit changes if module not in check_mode and the proposed is different than existing aci.post_config() elif state == 'absent': aci.delete_config() module.exit_json(**aci.result)
def main(): argument_spec = aci_argument_spec() argument_spec.update( name=dict(type='str', aliases=['maintenance_policy' ]), # Not required for querying all objects runmode=dict(type='str', default='pauseOnlyOnFailures', choices=['pauseOnlyOnFailures', 'pauseNever']), graceful=dict(type='bool'), scheduler=dict(type='str'), ignoreCompat=dict(type='bool'), adminst=dict(type='str', default='untriggered', choices=['triggered', 'untriggered']), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['name']], ['state', 'present', ['name', 'scheduler']], ], ) aci = ACIModule(module) state = module.params['state'] name = module.params['name'] runmode = module.params['runmode'] scheduler = module.params['scheduler'] adminst = module.params['adminst'] graceful = aci.boolean(module.params['graceful']) ignoreCompat = aci.boolean(module.params['ignoreCompat']) aci.construct_url(root_class=dict( aci_class='maintMaintP', aci_rn='fabric/maintpol-{0}'.format(name), target_filter={'name': name}, module_object=name, ), child_classes=['maintRsPolScheduler']) aci.get_existing() if state == 'present': aci.payload( aci_class='maintMaintP', class_config=dict( name=name, runMode=runmode, graceful=graceful, adminSt=adminst, ignoreCompat=ignoreCompat, ), child_configs=[ dict(maintRsPolScheduler=dict(attributes=dict( tnTrigSchedPName=scheduler, ), ), ), ], ) aci.get_diff(aci_class='maintMaintP') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( bd=dict(type='str', aliases=['bd_name', 'bridge_domain']), # Not required for querying all objects l3out=dict(type='str'), # Not required for querying all objects state=dict(type='str', default='present', choices=['absent', 'present', 'query']), tenant=dict(type='str', aliases=['tenant_name']), # Not required for querying all objects ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_together=[['gateway', 'mask']], required_if=[ ['state', 'present', ['bd', 'l3out', 'tenant']], ['state', 'absent', ['bd', 'l3out', 'tenant']], ], ) bd = module.params['bd'] l3out = module.params['l3out'] state = module.params['state'] tenant = module.params['tenant'] aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class='fvTenant', aci_rn='tn-{0}'.format(tenant), module_object=tenant, target_filter={'name': tenant}, ), subclass_1=dict( aci_class='fvBD', aci_rn='BD-{0}'.format(bd), module_object=bd, target_filter={'name': bd}, ), subclass_2=dict( aci_class='fvRsBDToOut', aci_rn='rsBDToOut-{0}'.format(l3out), module_object=l3out, target_filter={'tnL3extOutName': l3out}, ), ) aci.get_existing() if state == 'present': aci.payload( aci_class='fvRsBDToOut', class_config=dict(tnL3extOutName=l3out), ) aci.get_diff(aci_class='fvRsBDToOut') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec argument_spec.update( mcp=dict(type='str', required=False, aliases=['mcp_interface', 'name']), # Not required for querying all objects description=dict(type='str', aliases=['descr']), admin_state=dict(type='str', choices=['disabled', 'enabled']), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), method=dict(type='str', choices=['delete', 'get', 'post'], aliases=['action'], removed_in_version='2.6'), # Deprecated starting from v2.6 ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['mcp']], ['state', 'present', ['mcp']], ], ) mcp = module.params['mcp'] description = module.params['description'] admin_state = module.params['admin_state'] state = module.params['state'] aci = ACIModule(module) aci.construct_url(root_class=dict( aci_class='mcpIfPol', aci_rn='infra/mcpIfP-{0}'.format(mcp), filter_target='eq(mcpIfPol.name, "{0}")'.format(mcp), module_object=mcp, ), ) aci.get_existing() if state == 'present': # Filter out module parameters with null values aci.payload( aci_class='mcpIfPol', class_config=dict( name=mcp, descr=description, adminSt=admin_state, ), ) # Generate config diff which will be used as POST request body aci.get_diff(aci_class='mcpIfPol') # Submit changes if module not in check_mode and the proposed is different than existing aci.post_config() elif state == 'absent': aci.delete_config() module.exit_json(**aci.result)
def main(): argument_spec = aci_argument_spec() argument_spec.update( domain_type=dict(type='str', required=True, choices=['fc', 'l2dom', 'l3dom', 'phys', 'vmm']), domain=dict(type='str', aliases=['domain_name', 'domain_profile' ]), # Not required for querying all objects pool=dict(type='str', aliases=['pool_name', 'vlan_pool' ]), # Not required for querying all objects pool_allocation_mode=dict(type='str', required=True, aliases=['allocation_mode', 'mode'], choices=['dynamic', 'static']), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), vm_provider=dict(type='str', choices=[ 'cloudfoundry', 'kubernetes', 'microsoft', 'openshift', 'openstack', 'redhat', 'vmware' ]), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['domain_type', 'vmm', ['vm_provider']], ['state', 'absent', ['domain', 'domain_type', 'pool']], ['state', 'present', ['domain', 'domain_type', 'pool']], ], ) domain = module.params.get('domain') domain_type = module.params.get('domain_type') pool = module.params.get('pool') pool_allocation_mode = module.params.get('pool_allocation_mode') vm_provider = module.params.get('vm_provider') state = module.params.get('state') # Report when vm_provider is set when type is not virtual if domain_type != 'vmm' and vm_provider is not None: module.fail_json(msg="Domain type '{0}' cannot have a 'vm_provider'". format(domain_type)) # ACI Pool URL requires the allocation mode for vlan and vsan pools (ex: uni/infra/vlanns-[poolname]-static) pool_name = pool if pool is not None: pool_name = '[{0}]-{1}'.format(pool, pool_allocation_mode) # Compile the full domain for URL building if domain_type == 'fc': domain_class = 'fcDomP' domain_mo = 'uni/fc-{0}'.format(domain) domain_rn = 'fc-{0}'.format(domain) elif domain_type == 'l2dom': domain_class = 'l2extDomP' domain_mo = 'uni/l2dom-{0}'.format(domain) domain_rn = 'l2dom-{0}'.format(domain) elif domain_type == 'l3dom': domain_class = 'l3extDomP' domain_mo = 'uni/l3dom-{0}'.format(domain) domain_rn = 'l3dom-{0}'.format(domain) elif domain_type == 'phys': domain_class = 'physDomP' domain_mo = 'uni/phys-{0}'.format(domain) domain_rn = 'phys-{0}'.format(domain) elif domain_type == 'vmm': domain_class = 'vmmDomP' domain_mo = 'uni/vmmp-{0}/dom-{1}'.format( VM_PROVIDER_MAPPING[vm_provider], domain) domain_rn = 'vmmp-{0}/dom-{1}'.format(VM_PROVIDER_MAPPING[vm_provider], domain) # Ensure that querying all objects works when only domain_type is provided if domain is None: domain_mo = None aci_mo = 'uni/infra/vlanns-{0}'.format(pool_name) aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class=domain_class, aci_rn=domain_rn, module_object=domain_mo, target_filter={'name': domain}, ), child_classes=['infraRsVlanNs'], ) aci.get_existing() if state == 'present': aci.payload(aci_class=domain_class, class_config=dict(name=domain), child_configs=[ { 'infraRsVlanNs': { 'attributes': { 'tDn': aci_mo } } }, ]) aci.get_diff(aci_class=domain_class) aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( arp_flag=dict(type='str', choices=VALID_ARP_FLAGS), description=dict(type='str', aliases=['descr']), dst_port=dict(type='str'), dst_port_end=dict(type='str'), dst_port_start=dict(type='str'), entry=dict(type='str', aliases=['entry_name', 'filter_entry', 'name']), ether_type=dict(choices=VALID_ETHER_TYPES, type='str'), filter=dict(type='str', aliases=['filter_name']), icmp_msg_type=dict(type='str', choices=VALID_ICMP_TYPES), icmp6_msg_type=dict(type='str', choices=VALID_ICMP6_TYPES), ip_protocol=dict(choices=VALID_IP_PROTOCOLS, type='str'), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), stateful=dict(type='str', choices=['no', 'yes']), tenant=dict(type="str", aliases=['tenant_name']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['entry', 'filter', 'tenant']], ['state', 'present', ['entry', 'filter', 'tenant']], ], ) arp_flag = module.params['arp_flag'] if arp_flag is not None: arp_flag = ARP_FLAG_MAPPING[arp_flag] description = module.params['description'] dst_port = module.params['dst_port'] if dst_port in FILTER_PORT_MAPPING.keys(): dst_port = FILTER_PORT_MAPPING[dst_port] dst_end = module.params['dst_port_end'] if dst_end in FILTER_PORT_MAPPING.keys(): dst_end = FILTER_PORT_MAPPING[dst_end] dst_start = module.params['dst_port_start'] if dst_start in FILTER_PORT_MAPPING.keys(): dst_start = FILTER_PORT_MAPPING[dst_start] entry = module.params['entry'] ether_type = module.params['ether_type'] filter_name = module.params['filter'] icmp_msg_type = module.params['icmp_msg_type'] if icmp_msg_type is not None: icmp_msg_type = ICMP_MAPPING[icmp_msg_type] icmp6_msg_type = module.params['icmp6_msg_type'] if icmp6_msg_type is not None: icmp6_msg_type = ICMP6_MAPPING[icmp6_msg_type] ip_protocol = module.params['ip_protocol'] state = module.params['state'] stateful = module.params['stateful'] tenant = module.params['tenant'] # validate that dst_port is not passed with dst_start or dst_end if dst_port is not None and (dst_end is not None or dst_start is not None): module.fail_json( msg= "Parameter 'dst_port' cannot be used with 'dst_end' and 'dst_start'" ) elif dst_port is not None: dst_end = dst_port dst_start = dst_port aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class='fvTenant', aci_rn='tn-{0}'.format(tenant), filter_target='eq(fvTenant.name, "{0}")'.format(tenant), module_object=tenant, ), subclass_1=dict( aci_class='vzFilter', aci_rn='flt-{0}'.format(filter_name), filter_target='eq(vzFilter.name, "{0}")'.format(filter_name), module_object=filter_name, ), subclass_2=dict(aci_class='vzEntry', aci_rn='e-{0}'.format(entry), filter_target='eq(vzEntry.name, "{0}")'.format(entry), module_object=entry), ) aci.get_existing() if state == 'present': # Filter out module params with null values aci.payload( aci_class='vzEntry', class_config=dict( arpOpc=arp_flag, descr=description, dFromPort=dst_start, dToPort=dst_end, etherT=ether_type, icmpv4T=icmp_msg_type, icmpv6T=icmp6_msg_type, name=entry, prot=ip_protocol, stateful=stateful, ), ) # generate config diff which will be used as POST request body aci.get_diff(aci_class='vzEntry') # submit changes if module not in check_mode and the proposed is different than existing aci.post_config() elif state == 'absent': aci.delete_config() module.exit_json(**aci.result)
def main(): argument_spec = aci_argument_spec() argument_spec.update( contract=dict(type='str', required=False, aliases=['contract_name', 'name']), # Not required for querying all objects tenant=dict(type='str', required=False, aliases=['tenant_name']), # Not required for querying all objects description=dict(type='str', aliases=['descr']), scope=dict(type='str', choices=['application-profile', 'context', 'global', 'tenant']), priority=dict(type='str', choices=['level1', 'level2', 'level3', 'unspecified']), # No default provided on purpose dscp=dict(type='str', choices=['AF11', 'AF12', 'AF13', 'AF21', 'AF22', 'AF23', 'AF31', 'AF32', 'AF33', 'AF41', 'AF42', 'AF43', 'CS0', 'CS1', 'CS2', 'CS3', 'CS4', 'CS5', 'CS6', 'CS7', 'EF', 'VA', 'unspecified'], aliases=['target']), # No default provided on purpose state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['contract', 'tenant']], ['state', 'present', ['contract', 'tenant']], ], ) contract = module.params['contract'] description = module.params['description'] scope = module.params['scope'] priority = module.params['priority'] dscp = module.params['dscp'] state = module.params['state'] tenant = module.params['tenant'] aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class='fvTenant', aci_rn='tn-{0}'.format(tenant), filter_target='eq(fvTenant.name, "{0}")'.format(tenant), module_object=tenant, ), subclass_1=dict( aci_class='vzBrCP', aci_rn='brc-{0}'.format(contract), filter_target='eq(vzBrCP.name, "{0}")'.format(contract), module_object=contract, ), ) aci.get_existing() if state == 'present': aci.payload( aci_class='vzBrCP', class_config=dict( name=contract, descr=description, scope=scope, prio=priority, targetDscp=dscp, ), ) aci.get_diff(aci_class='vzBrCP') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( description=dict(type='str', aliases=['descr']), policy_control_direction=dict(choices=['ingress', 'egress'], type='str'), policy_control_preference=dict(choices=['enforced', 'unenforced'], type='str'), state=dict(choices=['absent', 'present', 'query'], type='str', default='present'), tenant=dict(type='str', required=False, aliases=['tenant_name']), # Not required for querying all objects vrf=dict(type='str', required=False, aliases=['context', 'name', 'vrf_name']), # Not required for querying all objects method=dict(type='str', choices=['delete', 'get', 'post'], aliases=['action'], removed_in_version='2.6'), # Deprecated starting from v2.6 protocol=dict(type='str', removed_in_version='2.6'), # Deprecated in v2.6 ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['tenant', 'vrf']], ['state', 'present', ['tenant', 'vrf']], ], ) description = module.params['description'] policy_control_direction = module.params['policy_control_direction'] policy_control_preference = module.params['policy_control_preference'] state = module.params['state'] tenant = module.params['tenant'] vrf = module.params['vrf'] aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class='fvTenant', aci_rn='tn-{0}'.format(tenant), filter_target='eq(fvTenant.name, "{0}")'.format(tenant), module_object=tenant, ), subclass_1=dict( aci_class='fvCtx', aci_rn='ctx-{0}'.format(vrf), filter_target='eq(fvCtx.name, "{0}")'.format(vrf), module_object=vrf, ), ) aci.get_existing() if state == 'present': aci.payload( aci_class='fvCtx', class_config=dict( descr=description, pcEnfDir=policy_control_direction, pcEnfPref=policy_control_preference, name=vrf, ), ) aci.get_diff(aci_class='fvCtx') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update({ 'description': dict(type='str'), 'leaf_profile': dict(type='str', aliases=['leaf_profile_name' ]), # Not required for querying all objects 'leaf': dict(type='str', aliases=[ 'name', 'leaf_name', 'leaf_profile_leaf_name', 'leaf_selector_name' ]), # Not required for querying all objects 'leaf_node_blk': dict(type='str', aliases=['leaf_node_blk_name', 'node_blk_name']), 'leaf_node_blk_description': dict(type='str'), 'from': dict(type='int', aliases=['node_blk_range_from', 'from_range', 'range_from']), 'to': dict(type='int', aliases=['node_blk_range_to', 'to_range', 'range_to']), 'policy_group': dict(type='str', aliases=['policy_group_name']), 'state': dict(type='str', default='present', choices=['absent', 'present', 'query']), }) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[['state', 'absent', ['leaf_profile', 'leaf']], [ 'state', 'present', [ 'leaf_profile', 'leaf', 'leaf_node_blk', 'from', 'to' ] ]]) description = module.params['description'] leaf_profile = module.params['leaf_profile'] leaf = module.params['leaf'] leaf_node_blk = module.params['leaf_node_blk'] leaf_node_blk_description = module.params['leaf_node_blk_description'] from_ = module.params['from'] to_ = module.params['to'] policy_group = module.params['policy_group'] state = module.params['state'] aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class='infraNodeP', aci_rn='infra/nprof-{0}'.format(leaf_profile), filter_target='eq(infraNodeP.name, "{0}")'.format(leaf_profile), module_object=leaf_profile), subclass_1=dict( aci_class='infraLeafS', # NOTE: normal rn: leaves-{name}-typ-{type}, hence here hardcoded to range for purposes of module aci_rn='leaves-{0}-typ-range'.format(leaf), filter_target='eq(infraLeafS.name, "{0}")'.format(leaf), module_object=leaf, ), # NOTE: infraNodeBlk is not made into a subclass because there is a 1-1 mapping between node block and leaf selector name child_classes=['infraNodeBlk', 'infraRsAccNodePGrp'], ) aci.get_existing() if state == 'present': aci.payload( aci_class='infraLeafS', class_config=dict( descr=description, name=leaf, ), child_configs=[ dict(infraNodeBlk=dict(attributes=dict( descr=leaf_node_blk_description, name=leaf_node_blk, from_=from_, to_=to_, ), ), ), dict(infraRsAccNodePGrp=dict(attributes=dict( tDn='uni/infra/funcprof/accnodepgrp-{0}'.format( policy_group), ), ), ), ], ) aci.get_diff(aci_class='infraLeafS') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( epg=dict(type='str', aliases=['epg_name', 'name']), # Not required for querying all objects bd=dict(type='str', aliases=['bd_name', 'bridge_domain']), ap=dict(type='str', aliases=['app_profile', 'app_profile_name']), # Not required for querying all objects tenant=dict(type='str', aliases=['tenant_name']), # Not required for querying all objects description=dict(type='str', aliases=['descr']), priority=dict(type='str', choices=['level1', 'level2', 'level3', 'unspecified']), intra_epg_isolation=dict(choices=['enforced', 'unenforced']), fwd_control=dict(type='str', choices=['none', 'proxy-arp']), preferred_group=dict(type='bool'), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['ap', 'epg', 'tenant']], ['state', 'present', ['ap', 'epg', 'tenant']], ], ) aci = ACIModule(module) epg = module.params['epg'] bd = module.params['bd'] description = module.params['description'] priority = module.params['priority'] intra_epg_isolation = module.params['intra_epg_isolation'] fwd_control = module.params['fwd_control'] preferred_group = aci.boolean(module.params['preferred_group'], 'include', 'exclude') state = module.params['state'] tenant = module.params['tenant'] ap = module.params['ap'] aci.construct_url( root_class=dict( aci_class='fvTenant', aci_rn='tn-{0}'.format(tenant), filter_target='eq(fvTenant.name, "{0}")'.format(tenant), module_object=tenant, ), subclass_1=dict( aci_class='fvAp', aci_rn='ap-{0}'.format(ap), filter_target='eq(fvAp.name, "{0}")'.format(ap), module_object=ap, ), subclass_2=dict( aci_class='fvAEPg', aci_rn='epg-{0}'.format(epg), filter_target='eq(fvAEPg.name, "{0}")'.format(epg), module_object=epg, ), child_classes=['fvRsBd'], ) aci.get_existing() if state == 'present': aci.payload( aci_class='fvAEPg', class_config=dict( name=epg, descr=description, prio=priority, pcEnfPref=intra_epg_isolation, fwdCtrl=fwd_control, prefGrMemb=preferred_group, ), child_configs=[ dict(fvRsBd=dict(attributes=dict(tnFvBDName=bd))), ], ) aci.get_diff(aci_class='fvAEPg') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec argument_spec.update( tenant=dict(type='str', aliases=['tenant_name']), # tenant not required for querying all APs ap=dict(type='str', aliases=['app_profile', 'app_profile_name', 'name']), description=dict(type='str', aliases=['descr'], required=False), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), method=dict(type='str', choices=['delete', 'get', 'post'], aliases=['action'], removed_in_version='2.6'), # Deprecated starting from v2.6 ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['tenant', 'ap']], ['state', 'present', ['tenant', 'ap']], ], ) # tenant = module.params['tenant'] ap = module.params['ap'] description = module.params['description'] state = module.params['state'] tenant = module.params['tenant'] aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class='fvTenant', aci_rn='tn-{}'.format(tenant), filter_target='(fvTenant.name, "{}")'.format(tenant), module_object=tenant, ), subclass_1=dict( aci_class='fvAp', aci_rn='ap-{}'.format(ap), filter_target='(fvAp.name, "{}")'.format(ap), module_object=ap, ), ) aci.get_existing() if state == 'present': # Filter out module parameters with null values aci.payload( aci_class='fvAp', class_config=dict( name=ap, descr=description, ), ) # Generate config diff which will be used as POST request body aci.get_diff(aci_class='fvAp') # Submit changes if module not in check_mode and the proposed is different than existing aci.post_config() elif state == 'absent': aci.delete_config() module.exit_json(**aci.result)
def main(): argument_spec = aci_argument_spec() argument_spec.update( description=dict(type='str', aliases=['descr']), dst_group=dict(type='str'), # Not required for querying all objects src_group=dict(type='str'), # Not required for querying all objects state=dict(type='str', default='present', choices=['absent', 'present', 'query']), tenant=dict(type='str', aliases=['tenant_name']), # Not required for querying all objects ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['dst_group', 'src_group', 'tenant']], ['state', 'present', ['dst_group', 'src_group', 'tenant']], ], ) description = module.params['description'] dst_group = module.params['dst_group'] src_group = module.params['src_group'] state = module.params['state'] tenant = module.params['tenant'] aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class='fvTenant', aci_rn='tn-{0}'.format(tenant), filter_target='eq(fvTenant.name, "{0}")'.format(tenant), module_object=tenant, ), subclass_1=dict( aci_class='spanSrcGrp', aci_rn='srcgrp-{0}'.format(src_group), filter_target='eq(spanSrcGrp.name, "{0}")'.format(src_group), module_object=src_group, ), subclass_2=dict( aci_class='spanSpanLbl', aci_rn='spanlbl-{0}'.format(dst_group), filter_target='eq(spanSpanLbl.name, "{0}")'.format(dst_group), module_object=dst_group, ), ) aci.get_existing() if state == 'present': aci.payload( aci_class='spanSpanLbl', class_config=dict( descr=description, name=dst_group, ), ) aci.get_diff(aci_class='spanSpanLbl') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( allow_useg=dict(type='str', choices=['encap', 'useg']), ap=dict(type='str', aliases=['app_profile', 'app_profile_name']), deploy_immediacy=dict(type='str', choices=['immediate', 'on-demand']), domain=dict(type='str', aliases=['domain_name', 'domain_profile']), domain_type=dict(type='str', choices=['phys', 'vmm'], aliases=['type']), encap=dict(type='int'), encap_mode=dict(type='str', choices=['auto', 'vlan', 'vxlan']), epg=dict(type='str', aliases=['name', 'epg_name']), netflow=dict(type='str', choices=['disabled', 'enabled']), primary_encap=dict(type='int'), resolution_immediacy=dict(type='str', choices=['immediate', 'lazy', 'pre-provision']), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), tenant=dict(type='str', aliases=['tenant_name']), vm_provider=dict(type='str', choices=['microsoft', 'openstack', 'vmware']), method=dict(type='str', choices=['delete', 'get', 'post'], aliases=['action'], removed_in_version='2.6'), # Deprecated starting from v2.6 protocol=dict(type='str', removed_in_version='2.6'), # Deprecated in v2.6 ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['domain_type', 'vmm', ['vm_provider']], ['state', 'absent', ['ap', 'domain', 'domain_type', 'epg', 'tenant']], ['state', 'present', ['ap', 'domain', 'domain_type', 'epg', 'tenant']], ], ) allow_useg = module.params['allow_useg'] ap = module.params['ap'] deploy_immediacy = module.params['deploy_immediacy'] domain = module.params['domain'] domain_type = module.params['domain_type'] vm_provider = module.params['vm_provider'] encap = module.params['encap'] if encap is not None: if encap in range(1, 4097): encap = 'vlan-{0}'.format(encap) else: module.fail_json(msg='Valid VLAN assigments are from 1 to 4096') encap_mode = module.params['encap_mode'] epg = module.params['epg'] netflow = module.params['netflow'] primary_encap = module.params['primary_encap'] if primary_encap is not None: if primary_encap in range(1, 4097): primary_encap = 'vlan-{0}'.format(primary_encap) else: module.fail_json(msg='Valid VLAN assigments are from 1 to 4096') resolution_immediacy = module.params['resolution_immediacy'] state = module.params['state'] tenant = module.params['tenant'] if domain_type == 'phys' and vm_provider is not None: module.fail_json(msg="Domain type 'phys' cannot have a 'vm_provider'") # Compile the full domain for URL building if domain_type == 'vmm': epg_domain = '{0}{1}'.format(VM_PROVIDER_MAPPING[vm_provider], domain) elif domain_type is not None: epg_domain = 'uni/phys-{0}'.format(domain) else: epg_domain = None aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class='fvTenant', aci_rn='tn-{0}'.format(tenant), filter_target='eq(fvTenant.name, "{0}")'.format(tenant), module_object=tenant, ), subclass_1=dict( aci_class='fvAp', aci_rn='ap-{0}'.format(ap), filter_target='eq(fvAp.name, "{0}")'.format(ap), module_object=ap, ), subclass_2=dict( aci_class='fvAEPg', aci_rn='epg-{0}'.format(epg), filter_target='eq(fvTenant.name, "{0}")'.format(epg), module_object=epg, ), subclass_3=dict( aci_class='fvRsDomAtt', aci_rn='rsdomAtt-[{0}]'.format(epg_domain), filter_target='eq(fvRsDomAtt.tDn, "{0}")'.format(epg_domain), module_object=epg_domain, ), ) aci.get_existing() if state == 'present': # Filter out module parameters with null values aci.payload( aci_class='fvRsDomAtt', class_config=dict( classPref=allow_useg, encap=encap, encapMode=encap_mode, instrImedcy=deploy_immediacy, netflowPref=netflow, primaryEncap=primary_encap, resImedcy=resolution_immediacy, ), ) # Generate config diff which will be used as POST request body aci.get_diff(aci_class='fvRsDomAtt') # Submit changes if module not in check_mode and the proposed is different than existing aci.post_config() elif state == 'absent': aci.delete_config() module.exit_json(**aci.result)
def main(): argument_spec = aci_argument_spec() argument_spec.update( leaf_interface_profile=dict( type='str', aliases=['leaf_interface_profile_name' ]), # Not required for querying all objects access_port_selector=dict(type='str', aliases=[ 'name', 'access_port_selector_name' ]), # Not required for querying all objects leaf_port_blk=dict(type='str', aliases=[ 'leaf_port_blk_name' ]), # Not required for querying all objects leaf_port_blk_description=dict(type='str'), from_port=dict( type='str', aliases=['from', 'fromPort', 'from_port_range'] ), # Not required for querying all objects and deleting sub port blocks to_port=dict( type='str', aliases=['to', 'toPort', 'to_port_range'] ), # Not required for querying all objects and deleting sub port blocks from_sub_port=dict( type='str', aliases=['fromSubPort', 'from_sub_port_range'] ), # Not required for querying all objects and deleting sub port blocks to_sub_port=dict( type='str', aliases=['toSubPort', 'to_sub_port_range'] ), # Not required for querying all objects and deleting sub port blocks from_card=dict(type='str', aliases=['from_card_range']), to_card=dict(type='str', aliases=['to_card_range']), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ [ 'state', 'absent', [ 'access_port_selector', 'leaf_port_blk', 'leaf_interface_profile' ] ], [ 'state', 'present', [ 'access_port_selector', 'leaf_port_blk', 'from_port', 'to_port', 'from_sub_port', 'to_sub_port', 'leaf_interface_profile' ] ], ], ) leaf_interface_profile = module.params['leaf_interface_profile'] access_port_selector = module.params['access_port_selector'] leaf_port_blk = module.params['leaf_port_blk'] leaf_port_blk_description = module.params['leaf_port_blk_description'] from_port = module.params['from_port'] to_port = module.params['to_port'] from_sub_port = module.params['from_sub_port'] to_sub_port = module.params['to_sub_port'] from_card = module.params['from_card'] to_card = module.params['to_card'] state = module.params['state'] aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class='infraAccPortP', aci_rn='infra/accportprof-{0}'.format(leaf_interface_profile), module_object=leaf_interface_profile, target_filter={'name': leaf_interface_profile}, ), subclass_1=dict( aci_class='infraHPortS', # NOTE: normal rn: hports-{name}-typ-{type}, hence here hardcoded to range for purposes of module aci_rn='hports-{0}-typ-range'.format(access_port_selector), module_object=access_port_selector, target_filter={'name': access_port_selector}, ), subclass_2=dict( aci_class='infraSubPortBlk', aci_rn='subportblk-{0}'.format(leaf_port_blk), module_object=leaf_port_blk, target_filter={'name': leaf_port_blk}, ), ) aci.get_existing() if state == 'present': aci.payload( aci_class='infraSubPortBlk', class_config=dict( descr=leaf_port_blk_description, name=leaf_port_blk, fromPort=from_port, toPort=to_port, fromSubPort=from_sub_port, toSubPort=to_sub_port, fromCard=from_card, toCard=to_card, # type='range', ), ) aci.get_diff(aci_class='infraSubPortBlk') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( aaa_password=dict(type='str', no_log=True), aaa_password_lifetime=dict(type='int'), aaa_password_update_required=dict(type='bool'), aaa_user=dict(type='str', required=True, aliases=['name']), # Not required for querying all objects clear_password_history=dict(type='bool'), description=dict(type='str', aliases=['descr']), email=dict(type='str'), enabled=dict(type='bool'), expiration=dict(type='str'), expires=dict(type='bool'), first_name=dict(type='str'), last_name=dict(type='str'), phone=dict(type='str'), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['aaa_user']], ['state', 'present', ['aaa_user']], ['expires', True, ['expiration']], ], ) aci = ACIModule(module) if not HAS_DATEUTIL: module.fail_json(msg='dateutil required for this module') aaa_password = module.params['aaa_password'] aaa_password_lifetime = module.params['aaa_password_lifetime'] aaa_password_update_required = aci.boolean(module.params['aaa_password_update_required']) aaa_user = module.params['aaa_user'] clear_password_history = module.params['clear_password_history'] description = module.params['description'] email = module.params['email'] enabled = aci.boolean(module.params['enabled'], 'active', 'inactive') expires = aci.boolean(module.params['expires']) first_name = module.params['first_name'] last_name = module.params['last_name'] phone = module.params['phone'] state = module.params['state'] expiration = module.params['expiration'] if expiration is not None and expiration != 'never': try: expiration = aci.iso8601_format(dateutil.parser.parse(expiration).replace(tzinfo=tzutc())) except Exception as e: module.fail_json(msg="Failed to parse date format '%s', %s" % (module.params['expiration'], e)) aci.construct_url( root_class=dict( aci_class='aaaUser', aci_rn='userext/user-{0}'.format(aaa_user), filter_target='eq(aaaUser.name, "{0}")'.format(aaa_user), module_object=aaa_user, ), ) aci.get_existing() if state == 'present': aci.payload( aci_class='aaaUser', class_config=dict( accountStatus=enabled, clearPwdHistory=clear_password_history, email=email, expiration=expiration, expires=expires, firstName=first_name, lastName=last_name, name=aaa_user, phone=phone, pwd=aaa_password, pwdLifeTime=aaa_password_lifetime, pwdUpdateRequired=aaa_password_update_required, ), ) aci.get_diff(aci_class='aaaUser') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( aaa_password=dict(type='str', no_log=True), aaa_password_lifetime=dict(type='int'), aaa_password_update_required=dict(type='bool'), aaa_user=dict(type='str', required=True, aliases=['name' ]), # Not required for querying all objects clear_password_history=dict(type='bool'), description=dict(type='str', aliases=['descr']), email=dict(type='str'), enabled=dict(type='bool'), expiration=dict(type='str'), expires=dict(type='bool'), first_name=dict(type='str'), last_name=dict(type='str'), phone=dict(type='str'), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['aaa_user']], ['state', 'present', ['aaa_user']], ['expires', True, ['expiration']], ], ) aci = ACIModule(module) if not HAS_DATEUTIL: module.fail_json(msg='dateutil required for this module') aaa_password = module.params['aaa_password'] aaa_password_lifetime = module.params['aaa_password_lifetime'] aaa_password_update_required = aci.boolean( module.params['aaa_password_update_required']) aaa_user = module.params['aaa_user'] clear_password_history = aci.boolean( module.params['clear_password_history'], 'yes', 'no') description = module.params['description'] email = module.params['email'] enabled = aci.boolean(module.params['enabled'], 'active', 'inactive') expires = aci.boolean(module.params['expires']) first_name = module.params['first_name'] last_name = module.params['last_name'] phone = module.params['phone'] state = module.params['state'] expiration = module.params['expiration'] if expiration is not None and expiration != 'never': try: expiration = aci.iso8601_format( dateutil.parser.parse(expiration).replace(tzinfo=tzutc())) except Exception as e: module.fail_json(msg="Failed to parse date format '%s', %s" % (module.params['expiration'], e)) aci.construct_url(root_class=dict( aci_class='aaaUser', aci_rn='userext/user-{0}'.format(aaa_user), module_object=aaa_user, target_filter={'name': aaa_user}, ), ) aci.get_existing() if state == 'present': aci.payload( aci_class='aaaUser', class_config=dict( accountStatus=enabled, clearPwdHistory=clear_password_history, descr=description, email=email, expiration=expiration, expires=expires, firstName=first_name, lastName=last_name, name=aaa_user, phone=phone, pwd=aaa_password, pwdLifeTime=aaa_password_lifetime, pwdUpdateRequired=aaa_password_update_required, ), ) aci.get_diff(aci_class='aaaUser') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update({ 'description': dict(type='str'), 'leaf_profile': dict(type='str', aliases=['leaf_profile_name']), # Not required for querying all objects 'leaf': dict(type='str', aliases=['name', 'leaf_name', 'leaf_profile_leaf_name', 'leaf_selector_name']), # Not required for querying all objects 'leaf_node_blk': dict(type='str', aliases=['leaf_node_blk_name', 'node_blk_name']), 'leaf_node_blk_description': dict(type='str'), # NOTE: Keyword 'from' is a reserved word in python, so we need it as a string 'from': dict(type='int', aliases=['node_blk_range_from', 'from_range', 'range_from']), 'to': dict(type='int', aliases=['node_blk_range_to', 'to_range', 'range_to']), 'policy_group': dict(type='str', aliases=['policy_group_name']), 'state': dict(type='str', default='present', choices=['absent', 'present', 'query']), }) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['leaf_profile', 'leaf']], ['state', 'present', ['leaf_profile', 'leaf', 'leaf_node_blk', 'from', 'to']] ] ) description = module.params['description'] leaf_profile = module.params['leaf_profile'] leaf = module.params['leaf'] leaf_node_blk = module.params['leaf_node_blk'] leaf_node_blk_description = module.params['leaf_node_blk_description'] from_ = module.params['from'] to_ = module.params['to'] policy_group = module.params['policy_group'] state = module.params['state'] aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class='infraNodeP', aci_rn='infra/nprof-{0}'.format(leaf_profile), filter_target='eq(infraNodeP.name, "{0}")'.format(leaf_profile), module_object=leaf_profile ), subclass_1=dict( aci_class='infraLeafS', # NOTE: normal rn: leaves-{name}-typ-{type}, hence here hardcoded to range for purposes of module aci_rn='leaves-{0}-typ-range'.format(leaf), filter_target='eq(infraLeafS.name, "{0}")'.format(leaf), module_object=leaf, ), # NOTE: infraNodeBlk is not made into a subclass because there is a 1-1 mapping between node block and leaf selector name child_classes=['infraNodeBlk', 'infraRsAccNodePGrp'], ) aci.get_existing() if state == 'present': aci.payload( aci_class='infraLeafS', class_config=dict( descr=description, name=leaf, ), child_configs=[ dict( infraNodeBlk=dict( attributes=dict( descr=leaf_node_blk_description, name=leaf_node_blk, from_=from_, to_=to_, ), ), ), dict( infraRsAccNodePGrp=dict( attributes=dict( tDn='uni/infra/funcprof/accnodepgrp-{0}'.format(policy_group), ), ), ), ], ) aci.get_diff(aci_class='infraLeafS') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( allocation_mode=dict(type='str', aliases=['mode'], choices=['dynamic', 'inherit', 'static']), description=dict(type='str', aliases=['descr']), pool=dict(type='str', aliases=['pool_name' ]), # Not required for querying all objects pool_allocation_mode=dict(type='str', aliases=['pool_mode'], choices=['dynamic', 'static']), pool_type=dict(type='str', aliases=['type'], choices=['vlan', 'vxlan', 'vsan'], required=True), range_end=dict(type='int', aliases=['end' ]), # Not required for querying all objects range_name=dict(type='str', aliases=["name", "range" ]), # Not required for querying all objects range_start=dict(type='int', aliases=["start" ]), # Not required for querying all objects state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ [ 'state', 'absent', ['pool', 'range_end', 'range_name', 'range_start'] ], [ 'state', 'present', ['pool', 'range_end', 'range_name', 'range_start'] ], ], ) allocation_mode = module.params['allocation_mode'] description = module.params['description'] pool = module.params['pool'] pool_allocation_mode = module.params['pool_allocation_mode'] pool_type = module.params['pool_type'] range_end = module.params['range_end'] range_name = module.params['range_name'] range_start = module.params['range_start'] state = module.params['state'] if range_end is not None: encap_end = '{0}-{1}'.format(pool_type, range_end) else: encap_end = None if range_start is not None: encap_start = '{0}-{1}'.format(pool_type, range_start) else: encap_start = None ACI_RANGE_MAPPING = dict( vlan=dict( aci_class='fvnsEncapBlk', aci_mo='from-[{0}]-to-[{1}]'.format(encap_start, encap_end), ), vxlan=dict( aci_class='fvnsEncapBlk', aci_mo='from-[{0}]-to-[{1}]'.format(encap_start, encap_end), ), vsan=dict( aci_class='fvnsVsanEncapBlk', aci_mo='vsanfrom-[{0}]-to-[{1}]'.format(encap_start, encap_end), ), ) # Collect proper class and mo information based on pool_type aci_range_class = ACI_RANGE_MAPPING[pool_type]["aci_class"] aci_range_mo = ACI_RANGE_MAPPING[pool_type]["aci_mo"] aci_pool_class = ACI_POOL_MAPPING[pool_type]["aci_class"] aci_pool_mo = ACI_POOL_MAPPING[pool_type]["aci_mo"] pool_name = pool # Validate range_end and range_start are valid for its respective encap type for encap_id in range_end, range_start: if encap_id is not None: if pool_type == 'vlan': if not 1 <= encap_id <= 4094: module.fail_json( msg= 'vlan pools must have "range_start" and "range_end" values between 1 and 4094' ) elif pool_type == 'vxlan': if not 5000 <= encap_id <= 16777215: module.fail_json( msg= 'vxlan pools must have "range_start" and "range_end" values between 5000 and 16777215' ) elif pool_type == 'vsan': if not 1 <= encap_id <= 4093: module.fail_json( msg= 'vsan pools must have "range_start" and "range_end" values between 1 and 4093' ) if range_end is not None and range_start is not None: # Validate range_start is less than range_end if range_start > range_end: module.fail_json( msg= 'The "range_start" must be less than or equal to the "range_end"' ) elif range_end is None and range_start is None: if range_name is None: # Reset range managed object to None for aci util to properly handle query aci_range_mo = None # Vxlan does not support setting the allocation mode if pool_type == 'vxlan' and allocation_mode is not None: module.fail_json( msg= 'vxlan pools do not support setting the "allocation_mode"; please omit this parameter for vxlan pools' ) # ACI Pool URL requires the allocation mode for vlan and vsan pools (ex: uni/infra/vlanns-[poolname]-static) if pool_type != 'vxlan' and pool is not None: if pool_allocation_mode is not None: pool_name = '[{0}]-{1}'.format(pool, pool_allocation_mode) else: module.fail_json( msg= 'ACI requires the "pool_allocation_mode" for "pool_type" of "vlan" and "vsan" when the "pool" is provided' ) aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class=aci_pool_class, aci_rn='{0}{1}'.format(aci_pool_mo, pool_name), module_object=pool, target_filter={'name': pool}, ), subclass_1=dict( aci_class=aci_range_class, aci_rn='{0}'.format(aci_range_mo), module_object=aci_range_mo, target_filter={ 'from': encap_start, 'to': encap_end, 'name': range_name }, ), ) aci.get_existing() if state == 'present': aci.payload( aci_class=aci_range_class, class_config={ "allocMode": allocation_mode, "descr": description, "from": encap_start, "name": range_name, "to": encap_end, }, ) aci.get_diff(aci_class=aci_range_class) aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( domain=dict(type='str', aliases=['domain_name', 'domain_profile']), domain_type=dict(type='str', choices=['fc', 'l2dom', 'l3dom', 'phys', 'vmm']), pool=dict(type='str', aliases=['pool_name']), pool_allocation_mode=dict(type='str', aliases=['allocation_mode', 'mode'], choices=['dynamic', 'static']), pool_type=dict(type='str', required=True, choices=['vlan', 'vsan', 'vxlan']), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), vm_provider=dict(type='str', choices=['cloudfoundry', 'kubernetes', 'microsoft', 'openshift', 'openstack', 'redhat', 'vmware']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['domain_type', 'vmm', ['vm_provider']], ['state', 'absent', ['domain', 'domain_type', 'pool', 'pool_type']], ['state', 'present', ['domain', 'domain_type', 'pool', 'pool_type']], ], ) domain = module.params['domain'] domain_type = module.params['domain_type'] pool = module.params['pool'] pool_allocation_mode = module.params['pool_allocation_mode'] pool_type = module.params['pool_type'] vm_provider = module.params['vm_provider'] state = module.params['state'] # Report when vm_provider is set when type is not virtual if domain_type != 'vmm' and vm_provider is not None: module.fail_json(msg="Domain type '{0}' cannot have a 'vm_provider'".format(domain_type)) # ACI Pool URL requires the allocation mode for vlan and vsan pools (ex: uni/infra/vlanns-[poolname]-static) pool_name = pool if pool_type != 'vxlan' and pool is not None: if pool_allocation_mode is not None: pool_name = '[{0}]-{1}'.format(pool, pool_allocation_mode) else: module.fail_json(msg="ACI requires the 'pool_allocation_mode' for 'pool_type' of 'vlan' and 'vsan' when 'pool' is provided") # Vxlan pools do not support allocation modes if pool_type == 'vxlan' and pool_allocation_mode is not None: module.fail_json(msg='vxlan pools do not support setting the allocation_mode; please remove this parameter from the task') # Compile the full domain for URL building if domain_type == 'fc': domain_class = 'fcDomP' domain_mo = 'uni/fc-{0}'.format(domain) domain_rn = 'fc-{0}'.format(domain) elif domain_type == 'l2ext': domain_class = 'l2extDomP' domain_mo = 'uni/l2dom-{0}'.format(domain) domain_rn = 'l2dom-{0}'.format(domain) elif domain_type == 'l3ext': domain_class = 'l3extDomP' domain_mo = 'uni/l3dom-{0}'.format(domain) domain_rn = 'l3dom-{0}'.format(domain) elif domain_type == 'phys': domain_class = 'physDomP' domain_mo = 'uni/phys-{0}'.format(domain) domain_rn = 'phys-{0}'.format(domain) elif domain_type == 'vmm': domain_class = 'vmmDomP' domain_mo = 'uni/vmmp-{0}/dom-{1}'.format(VM_PROVIDER_MAPPING[vm_provider], domain) domain_rn = 'vmmp-{0}/dom-{1}'.format(VM_PROVIDER_MAPPING[vm_provider], domain) # Ensure that querying all objects works when only domain_type is provided if domain is None: domain_mo = None pool_mo = POOL_MAPPING[pool_type]['aci_mo'].format(pool_name) child_class = POOL_MAPPING[pool_type]['child_class'] aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class=domain_class, aci_rn=domain_rn, filter_target='eq({0}.name, "{1}")'.format(domain_class, domain), module_object=domain_mo, ), child_classes=[child_class], ) aci.get_existing() if state == 'present': # Filter out module params with null values aci.payload( aci_class=domain_class, class_config=dict(name=domain), child_configs=[ {child_class: {'attributes': {'tDn': pool_mo}}}, ] ) # Generate config diff which will be used as POST request body aci.get_diff(aci_class=domain_class) # Submit changes if module not in check_mode and the proposed is different than existing aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( bd=dict(type='str', aliases=['bd_name', 'bridge_domain']), # Not required for querying all objects l3out=dict(type='str'), # Not required for querying all objects state=dict(type='str', default='present', choices=['absent', 'present', 'query']), tenant=dict(type='str', aliases=['tenant_name']), # Not required for querying all objects ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_together=[['gateway', 'mask']], required_if=[ ['state', 'present', ['bd', 'l3out', 'tenant']], ['state', 'absent', ['bd', 'l3out', 'tenant']], ], ) bd = module.params['bd'] l3out = module.params['l3out'] state = module.params['state'] tenant = module.params['tenant'] aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class='fvTenant', aci_rn='tn-{0}'.format(tenant), filter_target='eq(fvTenant.name, "{0}")'.format(tenant), module_object=tenant, ), subclass_1=dict( aci_class='fvBD', aci_rn='BD-{0}'.format(bd), filter_target='eq(fvBD.name, "{0}")'.format(bd), module_object=bd, ), subclass_2=dict( aci_class='fvRsBDToOut', aci_rn='rsBDToOut-{0}'.format(l3out), filter_target='eq(fvRsBDToOut.tnL3extOutName, "{0}")'.format(l3out), module_object=l3out, ), ) aci.get_existing() if state == 'present': aci.payload( aci_class='fvRsBDToOut', class_config=dict(tnL3extOutName=l3out), ) aci.get_diff(aci_class='fvRsBDToOut') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( port_channel=dict(type='str', required=False, aliases=['name']), # Not required for querying all objects description=dict(type='str', aliases=['descr']), min_links=dict(type='int'), max_links=dict(type='int'), mode=dict(type='str', choices=['off', 'mac-pin', 'active', 'passive', 'mac-pin-nicload']), fast_select=dict(type='bool'), graceful_convergence=dict(type='bool'), load_defer=dict(type='bool'), suspend_individual=dict(type='bool'), symmetric_hash=dict(type='bool'), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['port_channel']], ['state', 'present', ['port_channel']], ], ) port_channel = module.params['port_channel'] description = module.params['description'] min_links = module.params['min_links'] if min_links is not None and min_links not in range(1, 17): module.fail_json(msg='The "min_links" must be a value between 1 and 16') max_links = module.params['max_links'] if max_links is not None and max_links not in range(1, 17): module.fail_json(msg='The "max_links" must be a value between 1 and 16') mode = module.params['mode'] state = module.params['state'] # Build ctrl value for request ctrl = [] if module.params['fast_select'] is True: ctrl.append('fast-sel-hot-stdby') if module.params['graceful_convergence'] is True: ctrl.append('graceful-conv') if module.params['load_defer'] is True: ctrl.append('load-defer') if module.params['suspend_individual'] is True: ctrl.append('susp-individual') if module.params['symmetric_hash'] is True: ctrl.append('symmetric-hash') if not ctrl: ctrl = None else: ctrl = ",".join(ctrl) aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class='lacpLagPol', aci_rn='infra/lacplagp-{0}'.format(port_channel), module_object=port_channel, target_filter={'name': port_channel}, ), ) aci.get_existing() if state == 'present': aci.payload( aci_class='lacpLagPol', class_config=dict( name=port_channel, ctrl=ctrl, descr=description, minLinks=min_links, maxLinks=max_links, mode=mode, ), ) aci.get_diff(aci_class='lacpLagPol') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( description=dict(type='str', aliases=['descr']), pool=dict(type='str', aliases=['name', 'pool_name']), # Not required for querying all objects pool_allocation_mode=dict(type='str', aliases=['allocation_mode', 'mode'], choices=['dynamic', 'static']), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['pool']], ['state', 'present', ['pool']], ], ) description = module.params['description'] pool = module.params['pool'] pool_allocation_mode = module.params['pool_allocation_mode'] state = module.params['state'] pool_name = pool # ACI Pool URL requires the allocation mode for vlan and vsan pools (ex: uni/infra/vlanns-[poolname]-static) if pool is not None: if pool_allocation_mode is not None: pool_name = '[{0}]-{1}'.format(pool, pool_allocation_mode) else: module.fail_json(msg="ACI requires the 'pool_allocation_mode' when 'pool' is provided") aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class='fvnsVlanInstP', aci_rn='infra/vlanns-{0}'.format(pool_name), filter_target='eq(fvnsVlanInstP.name, "{0}")'.format(pool), module_object=pool, ), ) aci.get_existing() if state == 'present': aci.payload( aci_class='fvnsVlanInstP', class_config=dict( allocMode=pool_allocation_mode, descr=description, name=pool, ), ) aci.get_diff(aci_class='fvnsVlanInstP') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( admin_state=dict(type='raw'), # Turn into a boolean in v2.9 description=dict(type='str', aliases=['descr']), dst_group=dict(type='str'), src_group=dict(type='str', required=False, aliases=['name']), # Not required for querying all objects state=dict(type='str', default='present', choices=['absent', 'present', 'query']), tenant=dict(type='str', required=False, aliases=['tenant_name']), # Not required for querying all objects ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['src_group', 'tenant']], ['state', 'present', ['src_group', 'tenant']], ], ) aci = ACIModule(module) admin_state = aci.boolean(module.params['admin_state'], 'enabled', 'disabled') description = module.params['description'] dst_group = module.params['dst_group'] src_group = module.params['src_group'] state = module.params['state'] tenant = module.params['tenant'] aci.construct_url( root_class=dict( aci_class='fvTenant', aci_rn='tn-{0}'.format(tenant), filter_target='eq(fvTenant.name, "{0}")'.format(tenant), module_object=tenant, ), subclass_1=dict( aci_class='spanSrcGrp', aci_rn='srcgrp-{0}'.format(src_group), filter_target='eq(spanSrcGrp.name, "{0}")'.format(src_group), module_object=src_group, ), child_classes=['spanSpanLbl'], ) aci.get_existing() if state == 'present': aci.payload( aci_class='spanSrcGrp', class_config=dict( adminSt=admin_state, descr=description, name=src_group, ), child_configs=[{'spanSpanLbl': {'attributes': {'name': dst_group}}}], ) aci.get_diff(aci_class='spanSrcGrp') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update({ 'policy_group': dict(type='str', aliases=['name', 'policy_group_name' ]), # Not required for querying all objects 'description': dict(type='str', aliases=['descr']), # NOTE: Since this module needs to include both infra:AccBndlGrp (for PC and VPC) and infra:AccPortGrp (for leaf access port policy group): # NOTE: I'll allow the user to make the choice here (link(PC), node(VPC), leaf(leaf-access port policy group)) 'lag_type': dict(type='str', aliases=['lag_type_name'], choices=['leaf', 'link', 'node']), # Not required for querying all objects 'link_level_policy': dict(type='str', aliases=['link_level_policy_name']), 'cdp_policy': dict(type='str', aliases=['cdp_policy_name']), 'mcp_policy': dict(type='str', aliases=['mcp_policy_name']), 'lldp_policy': dict(type='str', aliases=['lldp_policy_name']), 'stp_interface_policy': dict(type='str', aliases=['stp_interface_policy_name']), 'egress_data_plane_policing_policy': dict(type='str', aliases=['egress_data_plane_policing_policy_name']), 'ingress_data_plane_policing_policy': dict(type='str', aliases=['ingress_data_plane_policing_policy_name']), 'priority_flow_control_policy': dict(type='str', aliases=['priority_flow_control_policy_name']), 'fibre_channel_interface_policy': dict(type='str', aliases=['fibre_channel_interface_policy_name']), 'slow_drain_policy': dict(type='str', aliases=['slow_drain_policy_name']), 'port_channel_policy': dict(type='str', aliases=['port_channel_policy_name']), 'monitoring_policy': dict(type='str', aliases=['monitoring_policy_name']), 'storm_control_interface_policy': dict(type='str', aliases=['storm_control_interface_policy_name']), 'l2_interface_policy': dict(type='str', aliases=['l2_interface_policy_name']), 'port_security_policy': dict(type='str', aliases=['port_security_policy_name']), 'aep': dict(type='str', aliases=['aep_name']), 'state': dict(type='str', default='present', choices=['absent', 'present', 'query']), }) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['lag_type', 'policy_group']], ['state', 'present', ['lag_type', 'policy_group']], ], ) policy_group = module.params['policy_group'] description = module.params['description'] lag_type = module.params['lag_type'] link_level_policy = module.params['link_level_policy'] cdp_policy = module.params['cdp_policy'] mcp_policy = module.params['mcp_policy'] lldp_policy = module.params['lldp_policy'] stp_interface_policy = module.params['stp_interface_policy'] egress_data_plane_policing_policy = module.params[ 'egress_data_plane_policing_policy'] ingress_data_plane_policing_policy = module.params[ 'ingress_data_plane_policing_policy'] priority_flow_control_policy = module.params[ 'priority_flow_control_policy'] fibre_channel_interface_policy = module.params[ 'fibre_channel_interface_policy'] slow_drain_policy = module.params['slow_drain_policy'] port_channel_policy = module.params['port_channel_policy'] monitoring_policy = module.params['monitoring_policy'] storm_control_interface_policy = module.params[ 'storm_control_interface_policy'] l2_interface_policy = module.params['l2_interface_policy'] port_security_policy = module.params['port_security_policy'] aep = module.params['aep'] state = module.params['state'] if lag_type == 'leaf': aci_class_name = 'infraAccPortGrp' dn_name = 'accportgrp' class_config_dict = dict( name=policy_group, descr=description, ) elif lag_type == 'link' or lag_type == 'node': aci_class_name = 'infraAccBndlGrp' dn_name = 'accbundle' class_config_dict = dict( name=policy_group, descr=description, lagT=lag_type, ) aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class=aci_class_name, aci_rn='infra/funcprof/{0}-{1}'.format(dn_name, policy_group), filter_target='eq({0}.name, "{1}")'.format(aci_class_name, policy_group), module_object=policy_group, ), child_classes=[ 'infraRsAttEntP', 'infraRsCdpIfPol', 'infraRsFcIfPol', 'infraRsHIfPol', 'infraRsL2IfPol', 'infraRsL2PortSecurityPol', 'infraRsLacpPol', 'infraRsLldpIfPol', 'infraRsMcpIfPol', 'infraRsMonIfInfraPol', 'infraRsQosEgressDppIfPol', 'infraRsQosIngressDppIfPol', 'infraRsQosPfcIfPol', 'infraRsQosSdIfPol', 'infraRsStormctrlIfPol', 'infraRsStpIfPol', ], ) aci.get_existing() if state == 'present': aci.payload( aci_class=aci_class_name, class_config=class_config_dict, child_configs=[ dict(infraRsAttEntP=dict(attributes=dict( tDn='uni/infra/attentp-{0}'.format(aep), ), ), ), dict(infraRsCdpIfPol=dict(attributes=dict( tnCdpIfPolName=cdp_policy, ), ), ), dict(infraRsFcIfPol=dict(attributes=dict( tnFcIfPolName=fibre_channel_interface_policy, ), ), ), dict(infraRsHIfPol=dict(attributes=dict( tnFabricHIfPolName=link_level_policy, ), ), ), dict(infraRsL2IfPol=dict(attributes=dict( tnL2IfPolName=l2_interface_policy, ), ), ), dict(infraRsL2PortSecurityPol=dict(attributes=dict( tnL2PortSecurityPolName=port_security_policy, ), ), ), dict(infraRsLacpPol=dict(attributes=dict( tnLacpLagPolName=port_channel_policy, ), ), ), dict(infraRsLldpIfPol=dict(attributes=dict( tnLldpIfPolName=lldp_policy, ), ), ), dict(infraRsMcpIfPol=dict(attributes=dict( tnMcpIfPolName=mcp_policy, ), ), ), dict(infraRsMonIfInfraPol=dict(attributes=dict( tnMonInfraPolName=monitoring_policy, ), ), ), dict(infraRsQosEgressDppIfPol=dict(attributes=dict( tnQosDppPolName=egress_data_plane_policing_policy, ), ), ), dict(infraRsQosIngressDppIfPol=dict(attributes=dict( tnQosDppPolName=ingress_data_plane_policing_policy, ), ), ), dict(infraRsQosPfcIfPol=dict(attributes=dict( tnQosPfcIfPolName=priority_flow_control_policy, ), ), ), dict(infraRsQosSdIfPol=dict(attributes=dict( tnQosSdIfPolName=slow_drain_policy, ), ), ), dict(infraRsStormctrlIfPol=dict(attributes=dict( tnStormctrlIfPolName=storm_control_interface_policy, ), ), ), dict(infraRsStpIfPol=dict(attributes=dict( tnStpIfPolName=stp_interface_policy, ), ), ), ], ) aci.get_diff(aci_class=aci_class_name) aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( allocation_mode=dict(type='str', aliases=['mode'], choices=['dynamic', 'inherit', 'static']), description=dict(type='str', aliases=['descr']), pool=dict(type='str', aliases=['pool_name']), # Not required for querying all objects pool_allocation_mode=dict(type='str', aliases=['pool_mode'], choices=['dynamic', 'static']), pool_type=dict(type='str', aliases=['type'], choices=['vlan', 'vxlan', 'vsan'], required=True), range_end=dict(type='int', aliases=['end']), # Not required for querying all objects range_name=dict(type='str', aliases=["name", "range"]), # Not required for querying all objects range_start=dict(type='int', aliases=["start"]), # Not required for querying all objects state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['pool', 'range_end', 'range_name', 'range_start']], ['state', 'present', ['pool', 'range_end', 'range_name', 'range_start']], ], ) allocation_mode = module.params['allocation_mode'] description = module.params['description'] pool = module.params['pool'] pool_allocation_mode = module.params['pool_allocation_mode'] pool_type = module.params['pool_type'] range_end = module.params['range_end'] range_name = module.params['range_name'] range_start = module.params['range_start'] state = module.params['state'] if range_end is not None: encap_end = '{0}-{1}'.format(pool_type, range_end) else: encap_end = None if range_start is not None: encap_start = '{0}-{1}'.format(pool_type, range_start) else: encap_start = None ACI_RANGE_MAPPING = dict( vlan=dict( aci_class='fvnsEncapBlk', aci_mo='from-[{0}]-to-[{1}]'.format(encap_start, encap_end), ), vxlan=dict( aci_class='fvnsEncapBlk', aci_mo='from-[{0}]-to-[{1}]'.format(encap_start, encap_end), ), vsan=dict( aci_class='fvnsVsanEncapBlk', aci_mo='vsanfrom-[{0}]-to-[{1}]'.format(encap_start, encap_end), ), ) # Collect proper class and mo information based on pool_type aci_range_class = ACI_RANGE_MAPPING[pool_type]["aci_class"] aci_range_mo = ACI_RANGE_MAPPING[pool_type]["aci_mo"] aci_pool_class = ACI_POOL_MAPPING[pool_type]["aci_class"] aci_pool_mo = ACI_POOL_MAPPING[pool_type]["aci_mo"] pool_name = pool # Validate range_end and range_start are valid for its respective encap type for encap_id in range_end, range_start: if encap_id is not None: if pool_type == 'vlan': if not 1 <= encap_id <= 4094: module.fail_json(msg='vlan pools must have "range_start" and "range_end" values between 1 and 4094') elif pool_type == 'vxlan': if not 5000 <= encap_id <= 16777215: module.fail_json(msg='vxlan pools must have "range_start" and "range_end" values between 5000 and 16777215') elif pool_type == 'vsan': if not 1 <= encap_id <= 4093: module.fail_json(msg='vsan pools must have "range_start" and "range_end" values between 1 and 4093') # Build proper proper filter_target based on range_start, range_end, and range_name if range_end is not None and range_start is not None: # Validate range_start is less than range_end if range_start > range_end: module.fail_json(msg='The "range_start" must be less than or equal to the "range_end"') if range_name is None: range_filter_target = 'and(eq({0}.from, "{1}"),eq({0}.to, "{2}"))'.format(aci_range_class, encap_start, encap_end) else: range_filter_target = 'and(eq({0}.from, "{1}"),eq({0}.to, "{2}"),eq({0}.name, "{3}"))'.format(aci_range_class, encap_start, encap_end, range_name) elif range_end is None and range_start is None: if range_name is None: # Reset range managed object to None for aci util to properly handle query aci_range_mo = None range_filter_target = '' else: range_filter_target = 'eq({0}.name, "{1}")'.format(aci_range_class, range_name) elif range_start is not None: if range_name is None: range_filter_target = 'eq({0}.from, "{1}")'.format(aci_range_class, encap_start) else: range_filter_target = 'and(eq({0}.from, "{1}"),eq({0}.name, "{2}"))'.format(aci_range_class, encap_start, range_name) else: if range_name is None: range_filter_target = 'eq({0}.to, "{1}")'.format(aci_range_class, encap_end) else: range_filter_target = 'and(eq({0}.to, "{1}"),eq({0}.name, "{2}"))'.format(aci_range_class, encap_end, range_name) # Vxlan does not support setting the allocation mode if pool_type == 'vxlan' and allocation_mode is not None: module.fail_json(msg='vxlan pools do not support setting the "allocation_mode"; please omit this parameter for vxlan pools') # ACI Pool URL requires the allocation mode for vlan and vsan pools (ex: uni/infra/vlanns-[poolname]-static) if pool_type != 'vxlan' and pool is not None: if pool_allocation_mode is not None: pool_name = '[{0}]-{1}'.format(pool, pool_allocation_mode) else: module.fail_json(msg='ACI requires the "pool_allocation_mode" for "pool_type" of "vlan" and "vsan" when the "pool" is provided') aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class=aci_pool_class, aci_rn='{0}{1}'.format(aci_pool_mo, pool_name), filter_target='eq({0}.name, "{1}")'.format(aci_pool_class, pool), module_object=pool, ), subclass_1=dict( aci_class=aci_range_class, aci_rn='{0}'.format(aci_range_mo), filter_target=range_filter_target, module_object=aci_range_mo, ), ) aci.get_existing() if state == 'present': aci.payload( aci_class=aci_range_class, class_config={ "allocMode": allocation_mode, "descr": description, "from": encap_start, "name": range_name, "to": encap_end, }, ) aci.get_diff(aci_class=aci_range_class) aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( tenant=dict(type='str', aliases=['tenant_name']), # Not required for querying all objects ap=dict(type='str', aliases=['app_profile', 'app_profile_name']), # Not required for querying all objects epg=dict(type='str', aliases=['epg_name']), # Not required for querying all objects encap_id=dict(type='int', aliases=['vlan', 'vlan_id']), primary_encap_id=dict(type='int', aliases=['primary_vlan', 'primary_vlan_id']), deploy_immediacy=dict(type='str', choices=['immediate', 'lazy']), interface_mode=dict(type='str', choices=['802.1p', 'access', 'native', 'regular', 'tagged', 'trunk', 'untagged'], aliases=['interface_mode_name', 'mode']), interface_type=dict(type='str', default='switch_port', choices=['fex', 'port_channel', 'switch_port', 'vpc']), pod_id=dict(type='int', aliases=['pod', 'pod_number']), # Not required for querying all objects leafs=dict(type='list', aliases=['leaves', 'nodes', 'paths', 'switches']), interface=dict(type='str'), extpaths=dict(type='int'), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['interface_type', 'fex', ['extpaths']], ['state', 'absent', ['ap', 'epg', 'interface', 'leafs', 'pod_id', 'tenant']], ['state', 'present', ['ap', 'encap_id', 'epg', 'interface', 'leafs', 'pod_id', 'tenant']], ], ) tenant = module.params['tenant'] ap = module.params['ap'] epg = module.params['epg'] encap_id = module.params['encap_id'] primary_encap_id = module.params['primary_encap_id'] deploy_immediacy = module.params['deploy_immediacy'] interface_mode = module.params['interface_mode'] interface_type = module.params['interface_type'] pod_id = module.params['pod_id'] # Users are likely to use integers for leaf IDs, which would raise an exception when using the join method leafs = [str(leaf) for leaf in module.params['leafs']] if leafs is not None: if len(leafs) == 1: if interface_type != 'vpc': leafs = leafs[0] else: module.fail_json(msg='A interface_type of "vpc" requires 2 leafs') elif len(leafs) == 2: if interface_type == 'vpc': leafs = "-".join(leafs) else: module.fail_json(msg='The interface_types "switch_port", "port_channel", and "fex" \ do not support using multiple leafs for a single binding') else: module.fail_json(msg='The "leafs" parameter must not have more than 2 entries') interface = module.params['interface'] extpaths = module.params['extpaths'] state = module.params['state'] static_path = '' if encap_id is not None: if encap_id in range(1, 4097): encap_id = 'vlan-{0}'.format(encap_id) else: module.fail_json(msg='Valid VLAN assigments are from 1 to 4096') if primary_encap_id is not None: if primary_encap_id in range(1, 4097): primary_encap_id = 'vlan-{0}'.format(primary_encap_id) else: module.fail_json(msg='Valid VLAN assigments are from 1 to 4096') INTERFACE_MODE_MAPPING = { '802.1p': 'native', 'access': 'untagged', 'native': 'native', 'regular': 'regular', 'tagged': 'regular', 'trunk': 'regular', 'untagged': 'untagged', } INTERFACE_TYPE_MAPPING = dict( fex='topology/pod-{0}/paths-{1}/extpaths-{2}/pathep-[eth{3}]'.format(pod_id, leafs, extpaths, interface), port_channel='topology/pod-{0}/paths-{1}/pathep-[eth{2}]'.format(pod_id, leafs, interface), switch_port='topology/pod-{0}/paths-{1}/pathep-[eth{2}]'.format(pod_id, leafs, interface), vpc='topology/pod-{0}/protpaths-{1}/pathep-[{2}]'.format(pod_id, leafs, interface), ) static_path = INTERFACE_TYPE_MAPPING[interface_type] if interface_mode is not None: interface_mode = INTERFACE_MODE_MAPPING[interface_mode] aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class='fvTenant', aci_rn='tn-{0}'.format(tenant), filter_target='eq(fvTenant.name, "{0}")'.format(tenant), module_object=tenant, ), subclass_1=dict( aci_class='fvAp', aci_rn='ap-{0}'.format(ap), filter_target='eq(fvAp.name, "{0}")'.format(ap), module_object=ap, ), subclass_2=dict( aci_class='fvAEPg', aci_rn='epg-{0}'.format(epg), filter_target='eq(fvAEPg.name, "{0}")'.format(epg), module_object=epg, ), subclass_3=dict( aci_class='fvRsPathAtt', aci_rn='rspathAtt-[{0}]'.format(static_path), filter_target='eq(fvRsPathAtt.tDn, "{0}"'.format(static_path), module_object=static_path, ), ) aci.get_existing() if state == 'present': aci.payload( aci_class='fvRsPathAtt', class_config=dict( encap=encap_id, primaryEncap=primary_encap_id, instrImedcy=deploy_immediacy, mode=interface_mode, tDn=static_path, ), ) aci.get_diff(aci_class='fvRsPathAtt') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( rtp=dict(type='str', required=False, aliases=['name', 'rtp_name' ]), # Not required for querying all objects tenant=dict(type='str', required=False, aliases=['tenant_name' ]), # Not required for quering all objects description=dict(type='str', aliases=['descr']), tag=dict(type='int'), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['rtp', 'tenant']], ['state', 'present', ['rtp', 'tenant']], ], ) rtp = module.params['rtp'] description = module.params['description'] tag = module.params['tag'] state = module.params['state'] tenant = module.params['tenant'] aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class='fvTenant', aci_rn='tn-{0}'.format(tenant), filter_target='eq(fvTenant.name, "{0}")'.format(tenant), module_object=tenant, ), subclass_1=dict( aci_class='l3extRouteTagPol', aci_rn='rttag-{0}'.format(rtp), filter_target='eq(l3extRouteTagPol.name, "{0}")'.format(rtp), module_object=rtp, ), ) aci.get_existing() if state == 'present': aci.payload( aci_class='l3extRouteTagPol', class_config=dict( name=rtp, descr=description, tag=tag, ), ) aci.get_diff(aci_class='l3extRouteTagPol') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( allocation_mode=dict(type='str', aliases=['mode'], choices=['dynamic', 'inherit', 'static']), description=dict(type='str', aliases=['descr']), pool=dict(type='str', aliases=['pool_name']), # Not required for querying all objects pool_allocation_mode=dict(type='str', aliases=['pool_mode'], choices=['dynamic', 'static']), block_name=dict(type='str', aliases=['name']), # Not required for querying all objects block_end=dict(type='int', aliases=['end']), # Not required for querying all objects block_start=dict(type='int', aliases=["start"]), # Not required for querying all objects state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['pool', 'block_end', 'block_name', 'block_start']], ['state', 'present', ['pool', 'block_end', 'block_name', 'block_start']], ], ) allocation_mode = module.params['allocation_mode'] description = module.params['description'] pool = module.params['pool'] pool_allocation_mode = module.params['pool_allocation_mode'] block_end = module.params['block_end'] block_name = module.params['block_name'] block_start = module.params['block_start'] state = module.params['state'] if block_end is not None: encap_end = 'vlan-{0}'.format(block_end) else: encap_end = None if block_start is not None: encap_start = 'vlan-{0}'.format(block_start) else: encap_start = None # Collect proper mo information aci_block_mo = 'from-[{0}]-to-[{1}]'.format(encap_start, encap_end) pool_name = pool # Validate block_end and block_start are valid for its respective encap type for encap_id in block_end, block_start: if encap_id is not None: if not 1 <= encap_id <= 4094: module.fail_json(msg="vlan pools must have 'block_start' and 'block_end' values between 1 and 4094") # Build proper proper filter_target based on block_start, block_end, and block_name if block_end is not None and block_start is not None: # Validate block_start is less than block_end if block_start > block_end: module.fail_json(msg="The 'block_start' must be less than or equal to the 'block_end'") if block_name is None: block_filter_target = 'and(eq({0}.from, "{1}"),eq({0}.to, "{2}"))'.format('fvnsEncapBlk', encap_start, encap_end) else: block_filter_target = 'and(eq({0}.from, "{1}"),eq({0}.to, "{2}"),eq({0}.name, "{3}"))'.format('fvnsEncapBlk', encap_start, encap_end, block_name) elif block_end is None and block_start is None: if block_name is None: # Reset range managed object to None for aci util to properly handle query aci_block_mo = None block_filter_target = '' else: block_filter_target = 'eq({0}.name, "{1}")'.format('fvnsEncapBlk', block_name) elif block_start is not None: if block_name is None: block_filter_target = 'eq({0}.from, "{1}")'.format('fvnsEncapBlk', encap_start) else: block_filter_target = 'and(eq({0}.from, "{1}"),eq({0}.name, "{2}"))'.format('fvnsEncapBlk', encap_start, block_name) else: if block_name is None: block_filter_target = 'eq({0}.to, "{1}")'.format('fvnsEncapBlk', encap_end) else: block_filter_target = 'and(eq({0}.to, "{1}"),eq({0}.name, "{2}"))'.format('fvnsEncapBlk', encap_end, block_name) # ACI Pool URL requires the allocation mode (ex: uni/infra/vlanns-[poolname]-static) if pool is not None: if pool_allocation_mode is not None: pool_name = '[{0}]-{1}'.format(pool, pool_allocation_mode) else: module.fail_json(msg="ACI requires the 'pool_allocation_mode' when 'pool' is provided") aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class='fvnsVlanInstP', aci_rn='infra/vlanns-{0}'.format(pool_name), filter_target='eq(fvnsVlanInstP.name, "{0}")'.format(pool), module_object=pool, ), subclass_1=dict( aci_class='fvnsEncapBlk', aci_rn=aci_block_mo, filter_target=block_filter_target, module_object=aci_block_mo, ), ) aci.get_existing() if state == 'present': aci.payload( aci_class='fvnsEncapBlk', class_config={ "allocMode": allocation_mode, "descr": description, "from": encap_start, "name": block_name, "to": encap_end, }, ) aci.get_diff(aci_class='fvnsEncapBlk') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec argument_spec.update( port_security=dict( type='str', required=False, aliases=['name']), # Not required for querying all objects description=dict(type='str', aliases=['descr']), max_end_points=dict(type='int'), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), method=dict(type='str', choices=['delete', 'get', 'post'], aliases=['action'], removed_in_version='2.6'), # Deprecated starting from v2.6 ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['port_security']], ['state', 'present', ['port_security']], ], ) port_security = module.params['port_security'] description = module.params['description'] max_end_points = module.params['max_end_points'] if max_end_points is not None and max_end_points not in range(12001): module.fail_json( msg='The "max_end_points" must be between 0 and 12000') state = module.params['state'] aci = ACIModule(module) aci.construct_url(root_class=dict( aci_class='l2PortSecurityPol', aci_rn='infra/portsecurityP-{}'.format(port_security), filter_target='(l2PortSecurityPol.name, "{}")'.format(port_security), module_object=port_security, ), ) aci.get_existing() if state == 'present': # Filter out module parameters with null values aci.payload( aci_class='l2PortSecurityPol', class_config=dict( name=port_security, descr=description, maximum=max_end_points, ), ) # Generate config diff which will be used as POST request body aci.get_diff(aci_class='l2PortSecurityPol') # Submit changes if module not in check_mode and the proposed is different than existing aci.post_config() elif state == 'absent': aci.delete_config() module.exit_json(**aci.result)
def main(): argument_spec = aci_argument_spec() argument_spec.update( l3out=dict(type='str', aliases=['l3out_name', 'name']), domain=dict(type='str', aliases=['ext_routed_domain_name', 'routed_domain']), vrf=dict(type='str', aliases=['vrf_name']), tenant=dict(type='str', aliases=['tenant_name']), description=dict(type='str', aliases=['descr']), route_control=dict(type='list', choices=['export', 'import'], aliases=['route_control_enforcement']), dscp=dict(type='str', choices=['AF11', 'AF12', 'AF13', 'AF21', 'AF22', 'AF23', 'AF31', 'AF32', 'AF33', 'AF41', 'AF42', 'AF43', 'CS0', 'CS1', 'CS2', 'CS3', 'CS4', 'CS5', 'CS6', 'CS7', 'EF', 'VA', 'unspecified'], aliases=['target']), l3protocol=dict(type='list', choices=['static', 'bgp', 'ospf', 'pim']), state=dict(type='str', default='present', choices=['absent', 'present', 'query']) ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['name', 'tenant']], ['state', 'present', ['name', 'tenant', 'domain', 'vrf']], ], ) aci = ACIModule(module) l3out = module.params['l3out'] domain = module.params['domain'] dscp = module.params['dscp'] description = module.params['description'] enforceRtctrl = module.params['route_control'] vrf = module.params['vrf'] l3protocol = module.params['l3protocol'] state = module.params['state'] tenant = module.params['tenant'] enforce_ctrl = '' if enforceRtctrl is not None: if len(enforceRtctrl) == 1 and enforceRtctrl[0] == 'import': aci.fail_json( "The route_control parameter is invalid: allowed options are export or import,export only") elif len(enforceRtctrl) == 1 and enforceRtctrl[0] == 'export': enforce_ctrl = 'export' else: enforce_ctrl = 'export,import' child_classes = ['l3extRsL3DomAtt', 'l3extRsEctx', 'bgpExtP', 'ospfExtP', 'eigrpExtP', 'pimExtP'] aci.construct_url( root_class=dict( aci_class='fvTenant', aci_rn='tn-{0}'.format(tenant), filter_target='eq(fvTenant.name, "{0}")'.format(tenant), module_object=tenant, ), subclass_1=dict( aci_class='l3extOut', aci_rn='out-{0}'.format(l3out), filter_target='eq(l3extOut.name, "{0}")'.format(l3out), module_object=l3out, ), child_classes=child_classes, ) aci.get_existing() child_configs = [ dict(l3extRsL3DomAtt=dict(attributes=dict( tDn='uni/l3dom-{0}'.format(domain)))), dict(l3extRsEctx=dict(attributes=dict(tnFvCtxName=vrf))), ] if l3protocol is not None: for protocol in l3protocol: if protocol == 'bgp': child_configs.append( dict(bgpExtP=dict(attributes=dict(descr='', nameAlias='')))) elif protocol == 'ospf': child_configs.append( dict(ospfExtP=dict(attributes=dict(descr='', nameAlias='')))) elif protocol == 'pim': child_configs.append( dict(pimExtP=dict(attributes=dict(descr='', nameAlias='')))) if state == 'present': aci.payload( aci_class='l3extOut', class_config=dict( name=l3out, descr=description, dn='uni/tn-{0}/out-{1}'.format(tenant, l3out), enforceRtctrl=enforce_ctrl, targetDscp=dscp ), child_configs=child_configs, ) aci.get_diff(aci_class='l3extOut') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( tenant=dict(type='str', aliases=['tenant_name' ]), # Not required for querying all objects epr_policy=dict(type='str', aliases=['epr_name', 'name' ]), # Not required for querying all objects bounce_age=dict(type='int'), bounce_trigger=dict(type='str', choices=['coop', 'flood']), hold_interval=dict(type='int'), local_ep_interval=dict(type='int'), remote_ep_interval=dict(type='int'), description=dict(type='str', aliases=['descr']), move_frequency=dict(type='int'), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['epr_policy', 'tenant']], ['state', 'present', ['epr_policy', 'tenant']], ], ) epr_policy = module.params['epr_policy'] bounce_age = module.params['bounce_age'] if bounce_age is not None and bounce_age != 0 and bounce_age not in range( 150, 65536): module.fail_json( msg="The bounce_age must be a value of 0 or between 150 and 65535") if bounce_age == 0: bounce_age = 'infinite' bounce_trigger = module.params['bounce_trigger'] if bounce_trigger is not None: bounce_trigger = BOUNCE_TRIG_MAPPING[bounce_trigger] description = module.params['description'] hold_interval = module.params['hold_interval'] if hold_interval is not None and hold_interval not in range(5, 65536): module.fail_json( msg="The hold_interval must be a value between 5 and 65535") local_ep_interval = module.params['local_ep_interval'] if local_ep_interval is not None and local_ep_interval != 0 and local_ep_interval not in range( 120, 65536): module.fail_json( msg= "The local_ep_interval must be a value of 0 or between 120 and 65535" ) if local_ep_interval == 0: local_ep_interval = "infinite" move_frequency = module.params['move_frequency'] if move_frequency is not None and move_frequency not in range(65536): module.fail_json( msg="The move_frequency must be a value between 0 and 65535") if move_frequency == 0: move_frequency = "none" remote_ep_interval = module.params['remote_ep_interval'] if remote_ep_interval is not None and remote_ep_interval not in range( 120, 65536): module.fail_json( msg= "The remote_ep_interval must be a value of 0 or between 120 and 65535" ) if remote_ep_interval == 0: remote_ep_interval = "infinite" state = module.params['state'] tenant = module.params['tenant'] aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class='fvTenant', aci_rn='tn-{0}'.format(tenant), module_object=tenant, target_filter={'name': tenant}, ), subclass_1=dict( aci_class='fvEpRetPol', aci_rn='epRPol-{0}'.format(epr_policy), module_object=epr_policy, target_filter={'name': epr_policy}, ), ) aci.get_existing() if state == 'present': aci.payload( aci_class='fvEpRetPol', class_config=dict( name=epr_policy, descr=description, bounceAgeIntvl=bounce_age, bounceTrig=bounce_trigger, holdIntvl=hold_interval, localEpAgeIntvl=local_ep_interval, remoteEpAgeIntvl=remote_ep_interval, moveFreq=move_frequency, ), ) aci.get_diff(aci_class='fvEpRetPol') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( port_channel=dict(type='str', required=False, aliases=['name']), # Not required for querying all objects description=dict(type='str', aliases=['descr']), min_links=dict(type='int'), max_links=dict(type='int'), mode=dict(type='str', choices=['off', 'mac-pin', 'active', 'passive', 'mac-pin-nicload']), fast_select=dict(type='bool'), graceful_convergence=dict(type='bool'), load_defer=dict(type='bool'), suspend_individual=dict(type='bool'), symmetric_hash=dict(type='bool'), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['port_channel']], ['state', 'present', ['port_channel']], ], ) port_channel = module.params['port_channel'] description = module.params['description'] min_links = module.params['min_links'] if min_links is not None and min_links not in range(1, 17): module.fail_json(msg='The "min_links" must be a value between 1 and 16') max_links = module.params['max_links'] if max_links is not None and max_links not in range(1, 17): module.fail_json(msg='The "max_links" must be a value between 1 and 16') mode = module.params['mode'] state = module.params['state'] # Build ctrl value for request ctrl = [] if module.params['fast_select'] is True: ctrl.append('fast-sel-hot-stdby') if module.params['graceful_convergence'] is True: ctrl.append('graceful-conv') if module.params['load_defer'] is True: ctrl.append('load-defer') if module.params['suspend_individual'] is True: ctrl.append('susp-individual') if module.params['symmetric_hash'] is True: ctrl.append('symmetric-hash') if not ctrl: ctrl = None else: ctrl = ",".join(ctrl) aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class='lacpLagPol', aci_rn='infra/lacplagp-{0}'.format(port_channel), filter_target='eq(lacpLagPol.name, "{0}")'.format(port_channel), module_object=port_channel, ), ) aci.get_existing() if state == 'present': aci.payload( aci_class='lacpLagPol', class_config=dict( name=port_channel, ctrl=ctrl, descr=description, minLinks=min_links, maxLinks=max_links, mode=mode, ), ) aci.get_diff(aci_class='lacpLagPol') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( domain=dict(type='str', aliases=['domain_name', 'domain_profile']), domain_type=dict(type='str', choices=['fc', 'l2dom', 'l3dom', 'phys', 'vmm']), pool=dict(type='str', aliases=['pool_name', 'vlan_pool']), pool_allocation_mode=dict(type='str', required=True, aliases=['allocation_mode', 'mode'], choices=['dynamic', 'static']), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), vm_provider=dict( type='str', choices=['microsoft', 'openstack', 'redhat', 'vmware']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['domain_type', 'vmm', ['vm_provider']], ['state', 'absent', ['domain', 'domain_type', 'pool']], ['state', 'present', ['domain', 'domain_type', 'pool']], ], ) domain = module.params['domain'] domain_type = module.params['domain_type'] pool = module.params['pool'] pool_allocation_mode = module.params['pool_allocation_mode'] vm_provider = module.params['vm_provider'] state = module.params['state'] # Report when vm_provider is set when type is not virtual if domain_type != 'vmm' and vm_provider is not None: module.fail_json(msg="Domain type '{0}' cannot have a 'vm_provider'". format(domain_type)) # ACI Pool URL requires the allocation mode for vlan and vsan pools (ex: uni/infra/vlanns-[poolname]-static) pool_name = pool if pool is not None: pool_name = '[{0}]-{1}'.format(pool, pool_allocation_mode) # Compile the full domain for URL building if domain_type == 'fc': domain_class = 'fcDomP' domain_mo = 'uni/fc-{0}'.format(domain) domain_rn = 'fc-{0}'.format(domain) elif domain_type == 'l2dom': domain_class = 'l2extDomP' domain_mo = 'uni/l2dom-{0}'.format(domain) domain_rn = 'l2dom-{0}'.format(domain) elif domain_type == 'l3dom': domain_class = 'l3extDomP' domain_mo = 'uni/l3dom-{0}'.format(domain) domain_rn = 'l3dom-{0}'.format(domain) elif domain_type == 'phys': domain_class = 'physDomP' domain_mo = 'uni/phys-{0}'.format(domain) domain_rn = 'phys-{0}'.format(domain) elif domain_type == 'vmm': domain_class = 'vmmDomP' domain_mo = 'uni/vmmp-{0}/dom-{1}'.format( VM_PROVIDER_MAPPING[vm_provider], domain) domain_rn = 'dom-{0}'.format(domain) aci_mo = 'uni/infra/vlanns-' + pool_name aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class=domain_class, aci_rn=domain_rn, filter_target='eq({0}.name, "{1}")'.format(domain_class, domain), module_object=domain_mo, ), child_classes=['infraRsVlanNs'], ) aci.get_existing() if state == 'present': # Filter out module params with null values aci.payload(aci_class=domain_class, class_config=dict(name=domain_mo), child_configs=[ { 'infraRsVlanNs': { 'attributes': { 'tDn': aci_mo } } }, ]) # Generate config diff which will be used as POST request body aci.get_diff(aci_class=domain_class) # Submit changes if module not in check_mode and the proposed is different than existing aci.post_config() elif state == 'absent': aci.delete_config() module.exit_json(**aci.result)
def main(): argument_spec = aci_argument_spec() argument_spec.update({ 'leaf_interface_profile': dict(type='str', aliases=['leaf_interface_profile_name']), # Not required for querying all objects 'access_port_selector': dict(type='str', aliases=['name', 'access_port_selector_name']), # Not required for querying all objects 'description': dict(typ='str'), 'leaf_port_blk': dict(type='str', aliases=['leaf_port_blk_name']), 'leaf_port_blk_description': dict(type='str'), # NOTE: Keyword 'from' is a reserved word in python, so we need it as a string 'from': dict(type='str', aliases=['fromPort', 'from_port_range']), 'to': dict(type='str', aliases=['toPort', 'to_port_range']), 'policy_group': dict(type='str', aliases=['policy_group_name']), 'state': dict(type='str', default='present', choices=['absent', 'present', 'query']), }) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['leaf_interface_profile', 'access_port_selector']], ['state', 'present', ['leaf_interface_profile', 'access_port_selector']], ], ) leaf_interface_profile = module.params['leaf_interface_profile'] access_port_selector = module.params['access_port_selector'] description = module.params['description'] leaf_port_blk = module.params['leaf_port_blk'] leaf_port_blk_description = module.params['leaf_port_blk_description'] from_ = module.params['from'] to_ = module.params['to'] policy_group = module.params['policy_group'] state = module.params['state'] aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class='infraAccPortP', aci_rn='infra/accportprof-{0}'.format(leaf_interface_profile), filter_target='eq(infraAccPortP.name, "{0}")'.format(leaf_interface_profile), module_object=leaf_interface_profile ), subclass_1=dict( aci_class='infraHPortS', # NOTE: normal rn: hports-{name}-typ-{type}, hence here hardcoded to range for purposes of module aci_rn='hports-{0}-typ-range'.format(access_port_selector), filter_target='eq(infraHPortS.name, "{0}")'.format(access_port_selector), module_object=access_port_selector, ), child_classes=['infraPortBlk', 'infraRsAccBaseGrp'] ) aci.get_existing() if state == 'present': aci.payload( aci_class='infraHPortS', class_config=dict( descr=description, name=access_port_selector, ), child_configs=[ dict( infraPortBlk=dict( attributes=dict( descr=leaf_port_blk_description, name=leaf_port_blk, fromPort=from_, toPort=to_, ), ), ), dict( infraRsAccBaseGrp=dict( attributes=dict( tDn='uni/infra/funcprof/accportgrp-{0}'.format(policy_group), ), ), ), ], ) aci.get_diff(aci_class='infraHPortS') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( domain=dict(type='str', aliases=['domain_name', 'domain_profile']), domain_type=dict(type='str', choices=['fc', 'l2dom', 'l3dom', 'phys', 'vmm']), pool=dict(type='str', aliases=['pool_name']), pool_allocation_mode=dict(type='str', aliases=['allocation_mode', 'mode'], choices=['dynamic', 'static']), pool_type=dict(type='str', required=True, choices=['vlan', 'vsan', 'vxlan']), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), vm_provider=dict(type='str', choices=[ 'cloudfoundry', 'kubernetes', 'microsoft', 'openshift', 'openstack', 'redhat', 'vmware' ]), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['domain_type', 'vmm', ['vm_provider']], [ 'state', 'absent', ['domain', 'domain_type', 'pool', 'pool_type'] ], [ 'state', 'present', ['domain', 'domain_type', 'pool', 'pool_type'] ], ], ) domain = module.params['domain'] domain_type = module.params['domain_type'] pool = module.params['pool'] pool_allocation_mode = module.params['pool_allocation_mode'] pool_type = module.params['pool_type'] vm_provider = module.params['vm_provider'] state = module.params['state'] # Report when vm_provider is set when type is not virtual if domain_type != 'vmm' and vm_provider is not None: module.fail_json(msg="Domain type '{0}' cannot have a 'vm_provider'". format(domain_type)) # ACI Pool URL requires the allocation mode for vlan and vsan pools (ex: uni/infra/vlanns-[poolname]-static) pool_name = pool if pool_type != 'vxlan' and pool is not None: if pool_allocation_mode is not None: pool_name = '[{0}]-{1}'.format(pool, pool_allocation_mode) else: module.fail_json( msg= "ACI requires the 'pool_allocation_mode' for 'pool_type' of 'vlan' and 'vsan' when 'pool' is provided" ) # Vxlan pools do not support allocation modes if pool_type == 'vxlan' and pool_allocation_mode is not None: module.fail_json( msg= 'vxlan pools do not support setting the allocation_mode; please remove this parameter from the task' ) # Compile the full domain for URL building if domain_type == 'fc': domain_class = 'fcDomP' domain_mo = 'uni/fc-{0}'.format(domain) domain_rn = 'fc-{0}'.format(domain) elif domain_type == 'l2ext': domain_class = 'l2extDomP' domain_mo = 'uni/l2dom-{0}'.format(domain) domain_rn = 'l2dom-{0}'.format(domain) elif domain_type == 'l3ext': domain_class = 'l3extDomP' domain_mo = 'uni/l3dom-{0}'.format(domain) domain_rn = 'l3dom-{0}'.format(domain) elif domain_type == 'phys': domain_class = 'physDomP' domain_mo = 'uni/phys-{0}'.format(domain) domain_rn = 'phys-{0}'.format(domain) elif domain_type == 'vmm': domain_class = 'vmmDomP' domain_mo = 'uni/vmmp-{0}/dom-{1}'.format( VM_PROVIDER_MAPPING[vm_provider], domain) domain_rn = 'vmmp-{0}/dom-{1}'.format(VM_PROVIDER_MAPPING[vm_provider], domain) # Ensure that querying all objects works when only domain_type is provided if domain is None: domain_mo = None pool_mo = POOL_MAPPING[pool_type]['aci_mo'].format(pool_name) child_class = POOL_MAPPING[pool_type]['child_class'] aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class=domain_class, aci_rn=domain_rn, module_object=domain_mo, target_filter={'name': domain}, ), child_classes=[child_class], ) aci.get_existing() if state == 'present': # Filter out module params with null values aci.payload(aci_class=domain_class, class_config=dict(name=domain), child_configs=[ { child_class: { 'attributes': { 'tDn': pool_mo } } }, ]) # Generate config diff which will be used as POST request body aci.get_diff(aci_class=domain_class) # Submit changes if module not in check_mode and the proposed is different than existing aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( description=dict(type='str', aliases=['descr']), node_id=dict(type='int'), # Not required for querying all objects pod_id=dict(type='int'), role=dict(type='str', choices=['leaf', 'spine', 'unspecified'], aliases=['role_name']), serial=dict(type='str', aliases=['serial_number']), # Not required for querying all objects switch=dict(type='str', aliases=['name', 'switch_name']), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['node_id', 'serial']], ['state', 'present', ['node_id', 'serial']], ], ) pod_id = module.params['pod_id'] serial = module.params['serial'] node_id = module.params['node_id'] switch = module.params['switch'] description = module.params['description'] role = module.params['role'] state = module.params['state'] aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class='fabricNodeIdentP', aci_rn='controller/nodeidentpol/nodep-{0}'.format(serial), filter_target='eq(fabricNodeIdentP.serial, "{0}")'.format(serial), module_object=serial, ) ) aci.get_existing() if state == 'present': aci.payload( aci_class='fabricNodeIdentP', class_config=dict( descr=description, name=switch, nodeId=node_id, podId=pod_id, rn='nodep-{0}'.format(serial), role=role, serial=serial, ) ) aci.get_diff(aci_class='fabricNodeIdentP') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json(**aci.result)
def main(): argument_spec = aci_argument_spec argument_spec.update( aep=dict(type='str', aliases=['name', 'aep_name']), # not required for querying all AEPs description=dict(type='str', aliases=['descr']), infra_vlan=dict(type='bool', default=False, aliases=['infrastructure_vlan']), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['aep']], ['state', 'present', ['aep']], ], ) aep = module.params['aep'] description = module.params['description'] infra_vlan = module.params['infra_vlan'] state = module.params['state'] if infra_vlan: child_configs = [ dict(infraProvAcc=dict(attributes=dict(name='provacc'))) ] else: child_configs = [] aci = ACIModule(module) aci.construct_url(root_class=dict( aci_class='infraAttEntityP', aci_rn='infra/attentp-{0}'.format(aep), filter_target='eq(infraAttEntityP.name, "{0}")'.format(aep), module_object=aep, ), ) aci.get_existing() if state == 'present': # Filter out module parameters with null values aci.payload( aci_class='infraAttEntityP', class_config=dict( name=aep, descr=description, ), child_configs=child_configs, ) # Generate config diff which will be used as POST request body aci.get_diff(aci_class='infraAttEntityP') # Submit changes if module not in check_mode and the proposed is different than existing aci.post_config() elif state == 'absent': aci.delete_config() module.exit_json(**aci.result)
def main(): argument_spec = aci_argument_spec() argument_spec.update( contract=dict(type='str', aliases=['contract_name']), # Not required for querying all objects filter=dict(type='str', aliases=['filter_name']), # Not required for querying all objects log=dict(tyep='str', choices=['log', 'none'], aliases=['directive']), subject=dict(type='str', aliases=['contract_subject', 'subject_name']), # Not required for querying all objects tenant=dict(type='str', aliases=['tenant_name']), # Not required for querying all objects state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['contract', 'filter', 'subject', 'tenant']], ['state', 'present', ['contract', 'filter', 'subject', 'tenant']], ], ) contract = module.params['contract'] filter_name = module.params['filter'] log = module.params['log'] subject = module.params['subject'] tenant = module.params['tenant'] state = module.params['state'] # Add subject_filter key to modul.params for building the URL module.params['subject_filter'] = filter_name # Convert log to empty string if none, as that is what API expects. An empty string is not a good option to present the user. if log == 'none': log = '' aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class='fvTenant', aci_rn='tn-{0}'.format(tenant), filter_target='eq(fvTenant.name, "{0}")'.format(tenant), module_object=tenant, ), subclass_1=dict( aci_class='vzBrCP', aci_rn='brc-{0}'.format(contract), filter_target='eq(vzBrCP.name, "{0}")'.format(contract), module_object=contract, ), subclass_2=dict( aci_class='vzSubj', aci_rn='subj-{0}'.format(subject), filter_target='eq(vzSubj.name, "{0}")'.format(subject), module_object=subject, ), subclass_3=dict( aci_class='vzRsSubjFiltAtt', aci_rn='rssubjFiltAtt-{0}'.format(filter_name), filter_target='eq(vzRsSubjFiltAtt.tnVzFilterName, "{0}")'.format(filter_name), module_object=filter_name, ), ) aci.get_existing() if state == 'present': aci.payload( aci_class='vzRsSubjFiltAtt', class_config=dict( tnVzFilterName=filter_name, directives=log, ), ) aci.get_diff(aci_class='vzRsSubjFiltAtt') aci.post_config() elif state == 'absent': aci.delete_config() # Remove subject_filter used to build URL from module.params module.params.pop('subject_filter') aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( bd=dict(type='str', aliases=['bd_name']), # Not required for querying all objects description=dict(type='str', aliases=['descr']), enable_vip=dict(type='bool'), gateway=dict(type='str', aliases=['gateway_ip' ]), # Not required for querying all objects mask=dict(type='int', aliases=['subnet_mask' ]), # Not required for querying all objects subnet_name=dict(type='str', aliases=['name']), nd_prefix_policy=dict(type='str'), preferred=dict(type='bool'), route_profile=dict(type='str'), route_profile_l3_out=dict(type='str'), scope=dict(type='list', choices=['private', 'public', 'shared']), subnet_control=dict( type='str', choices=['nd_ra', 'no_gw', 'querier_ip', 'unspecified']), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), tenant=dict(type='str', aliases=['tenant_name' ]), # Not required for querying all objects ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_together=[['gateway', 'mask']], required_if=[ ['state', 'present', ['bd', 'gateway', 'mask', 'tenant']], ['state', 'absent', ['bd', 'gateway', 'mask', 'tenant']], ], ) aci = ACIModule(module) description = module.params['description'] enable_vip = aci.boolean(module.params['enable_vip']) tenant = module.params['tenant'] bd = module.params['bd'] gateway = module.params['gateway'] mask = module.params['mask'] if mask is not None and mask not in range(0, 129): # TODO: split checkes between IPv4 and IPv6 Addresses module.fail_json( msg= 'Valid Subnet Masks are 0 to 32 for IPv4 Addresses and 0 to 128 for IPv6 addresses' ) if gateway is not None: gateway = '{0}/{1}'.format(gateway, str(mask)) subnet_name = module.params['subnet_name'] nd_prefix_policy = module.params['nd_prefix_policy'] preferred = aci.boolean(module.params['preferred']) route_profile = module.params['route_profile'] route_profile_l3_out = module.params['route_profile_l3_out'] scope = module.params['scope'] if scope is not None: if 'private' in scope and 'public' in scope: module.fail_json( msg= "Parameter 'scope' cannot be both 'private' and 'public', got: %s" % scope) else: scope = ','.join(sorted(scope)) state = module.params['state'] subnet_control = module.params['subnet_control'] if subnet_control: subnet_control = SUBNET_CONTROL_MAPPING[subnet_control] aci.construct_url( root_class=dict( aci_class='fvTenant', aci_rn='tn-{0}'.format(tenant), module_object=tenant, target_filter={'name': tenant}, ), subclass_1=dict( aci_class='fvBD', aci_rn='BD-{0}'.format(bd), module_object=bd, target_filter={'name': bd}, ), subclass_2=dict( aci_class='fvSubnet', aci_rn='subnet-[{0}]'.format(gateway), module_object=gateway, target_filter={'ip': gateway}, ), child_classes=['fvRsBDSubnetToProfile', 'fvRsNdPfxPol'], ) aci.get_existing() if state == 'present': aci.payload( aci_class='fvSubnet', class_config=dict( ctrl=subnet_control, descr=description, ip=gateway, name=subnet_name, preferred=preferred, scope=scope, virtual=enable_vip, ), child_configs=[ { 'fvRsBDSubnetToProfile': { 'attributes': { 'tnL3extOutName': route_profile_l3_out, 'tnRtctrlProfileName': route_profile } } }, { 'fvRsNdPfxPol': { 'attributes': { 'tnNdPfxPolName': nd_prefix_policy } } }, ], ) aci.get_diff(aci_class='fvSubnet') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( aep=dict(type='str', aliases=['aep_name']), # Not required for querying all objects domain=dict(type='str', aliases=['domain_name', 'domain_profile']), # Not required for querying all objects domain_type=dict(type='str', choices=['fc', 'l2dom', 'l3dom', 'phys', 'vmm'], aliases=['type']), # Not required for querying all objects state=dict(type='str', default='present', choices=['absent', 'present', 'query']), vm_provider=dict(type='str', choices=['cloudfoundry', 'kubernetes', 'microsoft', 'openshift', 'openstack', 'redhat', 'vmware']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['domain_type', 'vmm', ['vm_provider']], ['state', 'absent', ['aep', 'domain', 'domain_type']], ['state', 'present', ['aep', 'domain', 'domain_type']], ], required_together=[ ['domain', 'domain_type'], ], ) aep = module.params['aep'] domain = module.params['domain'] domain_type = module.params['domain_type'] vm_provider = module.params['vm_provider'] state = module.params['state'] # Report when vm_provider is set when type is not virtual if domain_type != 'vmm' and vm_provider is not None: module.fail_json(msg="Domain type '{0}' cannot have a 'vm_provider'".format(domain_type)) # Compile the full domain for URL building if domain_type == 'fc': domain_mo = 'uni/fc-{0}'.format(domain) elif domain_type == 'l2dom': domain_mo = 'uni/l2dom-{0}'.format(domain) elif domain_type == 'l3dom': domain_mo = 'uni/l3dom-{0}'.format(domain) elif domain_type == 'phys': domain_mo = 'uni/phys-{0}'.format(domain) elif domain_type == 'vmm': domain_mo = 'uni/vmmp-{0}/dom-{1}'.format(VM_PROVIDER_MAPPING[vm_provider], domain) else: domain_mo = None aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class='infraAttEntityP', aci_rn='infra/attentp-{0}'.format(aep), filter_target='eq(infraAttEntityP.name, "{0}")'.format(aep), module_object=aep, ), subclass_1=dict( aci_class='infraRsDomP', aci_rn='rsdomP-[{0}]'.format(domain_mo), filter_target='eq(infraRsDomP.tDn, "{0}")'.format(domain_mo), module_object=domain_mo, ), ) aci.get_existing() if state == 'present': aci.payload( aci_class='infraRsDomP', class_config=dict(tDn=domain_mo), ) aci.get_diff(aci_class='infraRsDomP') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( source=dict(type='str', aliases=['name', 'source_name' ]), # Not required for querying all objects polling_interval=dict(type='int'), url=dict(type='str'), url_username=dict(type='str'), url_password=dict(type='str', no_log=True), url_protocol=dict(type='str', default='scp', choices=['http', 'local', 'scp', 'usbkey'], aliases=['url_proto']), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['source']], ['state', 'present', ['url_protocol', 'source', 'url']], ], ) polling_interval = module.params.get('polling_interval') url_protocol = module.params.get('url_protocol') state = module.params.get('state') source = module.params.get('source') url = module.params.get('url') url_password = module.params.get('url_password') url_username = module.params.get('url_username') aci = ACIModule(module) aci.construct_url(root_class=dict( aci_class='firmwareOSource', aci_rn='fabric/fwrepop', module_object=source, target_filter={'name': source}, ), ) aci.get_existing() if state == 'present': aci.payload( aci_class='firmwareOSource', class_config=dict( name=source, url=url, password=url_password, pollingInterval=polling_interval, proto=url_protocol, user=url_username, ), ) aci.get_diff(aci_class='firmwareOSource') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( arp_flag=dict(type='str', choices=VALID_ARP_FLAGS), description=dict(type='str', aliases=['descr']), dst_port=dict(type='str'), dst_port_end=dict(type='str'), dst_port_start=dict(type='str'), entry=dict(type='str', aliases=['entry_name', 'filter_entry', 'name']), # Not required for querying all objects ether_type=dict(choices=VALID_ETHER_TYPES, type='str'), filter=dict(type='str', aliases=['filter_name']), # Not required for querying all objects icmp_msg_type=dict(type='str', choices=VALID_ICMP_TYPES), icmp6_msg_type=dict(type='str', choices=VALID_ICMP6_TYPES), ip_protocol=dict(choices=VALID_IP_PROTOCOLS, type='str'), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), stateful=dict(type='bool'), tenant=dict(type="str", aliases=['tenant_name']), # Not required for querying all objects ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['entry', 'filter', 'tenant']], ['state', 'present', ['entry', 'filter', 'tenant']], ], ) aci = ACIModule(module) arp_flag = module.params['arp_flag'] if arp_flag is not None: arp_flag = ARP_FLAG_MAPPING[arp_flag] description = module.params['description'] dst_port = module.params['dst_port'] if dst_port in FILTER_PORT_MAPPING.keys(): dst_port = FILTER_PORT_MAPPING[dst_port] dst_end = module.params['dst_port_end'] if dst_end in FILTER_PORT_MAPPING.keys(): dst_end = FILTER_PORT_MAPPING[dst_end] dst_start = module.params['dst_port_start'] if dst_start in FILTER_PORT_MAPPING.keys(): dst_start = FILTER_PORT_MAPPING[dst_start] entry = module.params['entry'] ether_type = module.params['ether_type'] filter_name = module.params['filter'] icmp_msg_type = module.params['icmp_msg_type'] if icmp_msg_type is not None: icmp_msg_type = ICMP_MAPPING[icmp_msg_type] icmp6_msg_type = module.params['icmp6_msg_type'] if icmp6_msg_type is not None: icmp6_msg_type = ICMP6_MAPPING[icmp6_msg_type] ip_protocol = module.params['ip_protocol'] state = module.params['state'] stateful = aci.boolean(module.params['stateful']) tenant = module.params['tenant'] # validate that dst_port is not passed with dst_start or dst_end if dst_port is not None and (dst_end is not None or dst_start is not None): module.fail_json(msg="Parameter 'dst_port' cannot be used with 'dst_end' and 'dst_start'") elif dst_port is not None: dst_end = dst_port dst_start = dst_port aci.construct_url( root_class=dict( aci_class='fvTenant', aci_rn='tn-{0}'.format(tenant), filter_target='eq(fvTenant.name, "{0}")'.format(tenant), module_object=tenant, ), subclass_1=dict( aci_class='vzFilter', aci_rn='flt-{0}'.format(filter_name), filter_target='eq(vzFilter.name, "{0}")'.format(filter_name), module_object=filter_name, ), subclass_2=dict( aci_class='vzEntry', aci_rn='e-{0}'.format(entry), filter_target='eq(vzEntry.name, "{0}")'.format(entry), module_object=entry ), ) aci.get_existing() if state == 'present': aci.payload( aci_class='vzEntry', class_config=dict( arpOpc=arp_flag, descr=description, dFromPort=dst_start, dToPort=dst_end, etherT=ether_type, icmpv4T=icmp_msg_type, icmpv6T=icmp6_msg_type, name=entry, prot=ip_protocol, stateful=stateful, ), ) aci.get_diff(aci_class='vzEntry') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()
def main(): argument_spec = aci_argument_spec() argument_spec.update( tenant=dict(type='str', aliases=['tenant_name' ]), # Not required for querying all objects ap=dict(type='str', aliases=['app_profile', 'app_profile_name' ]), # Not required for querying all objects epg=dict(type='str', aliases=['epg_name' ]), # Not required for querying all objects description=dict(type='str', aliases=['descr']), encap_id=dict(type='int', aliases=['vlan', 'vlan_id']), primary_encap_id=dict(type='int', aliases=['primary_vlan', 'primary_vlan_id']), deploy_immediacy=dict(type='str', choices=['immediate', 'lazy']), interface_mode=dict(type='str', choices=[ '802.1p', 'access', 'native', 'regular', 'tagged', 'trunk', 'untagged' ], aliases=['interface_mode_name', 'mode']), interface_type=dict( type='str', default='switch_port', choices=['fex', 'port_channel', 'switch_port', 'vpc']), pod_id=dict(type='int', aliases=['pod', 'pod_number' ]), # Not required for querying all objects leafs=dict(type='list', aliases=['leaves', 'nodes', 'paths', 'switches']), interface=dict(type='str'), extpaths=dict(type='int'), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['interface_type', 'fex', ['extpaths']], [ 'state', 'absent', ['ap', 'epg', 'interface', 'leafs', 'pod_id', 'tenant'] ], [ 'state', 'present', [ 'ap', 'encap_id', 'epg', 'interface', 'leafs', 'pod_id', 'tenant' ] ], ], ) tenant = module.params['tenant'] ap = module.params['ap'] epg = module.params['epg'] description = module.params['description'] encap_id = module.params['encap_id'] primary_encap_id = module.params['primary_encap_id'] deploy_immediacy = module.params['deploy_immediacy'] interface_mode = module.params['interface_mode'] interface_type = module.params['interface_type'] pod_id = module.params['pod_id'] leafs = module.params['leafs'] if leafs is not None: # Users are likely to use integers for leaf IDs, which would raise an exception when using the join method leafs = [str(leaf) for leaf in module.params['leafs']] if len(leafs) == 1: if interface_type != 'vpc': leafs = leafs[0] else: module.fail_json( msg='A interface_type of "vpc" requires 2 leafs') elif len(leafs) == 2: if interface_type == 'vpc': leafs = "-".join(leafs) else: module.fail_json( msg= 'The interface_types "switch_port", "port_channel", and "fex" \ do not support using multiple leafs for a single binding') else: module.fail_json( msg='The "leafs" parameter must not have more than 2 entries') interface = module.params['interface'] extpaths = module.params['extpaths'] state = module.params['state'] static_path = '' if encap_id is not None: if encap_id in range(1, 4097): encap_id = 'vlan-{0}'.format(encap_id) else: module.fail_json(msg='Valid VLAN assigments are from 1 to 4096') if primary_encap_id is not None: if primary_encap_id in range(1, 4097): primary_encap_id = 'vlan-{0}'.format(primary_encap_id) else: module.fail_json(msg='Valid VLAN assigments are from 1 to 4096') INTERFACE_MODE_MAPPING = { '802.1p': 'native', 'access': 'untagged', 'native': 'native', 'regular': 'regular', 'tagged': 'regular', 'trunk': 'regular', 'untagged': 'untagged', } INTERFACE_TYPE_MAPPING = dict( fex='topology/pod-{0}/paths-{1}/extpaths-{2}/pathep-[eth{3}]'.format( pod_id, leafs, extpaths, interface), port_channel='topology/pod-{0}/paths-{1}/pathep-[{2}]'.format( pod_id, leafs, interface), switch_port='topology/pod-{0}/paths-{1}/pathep-[eth{2}]'.format( pod_id, leafs, interface), vpc='topology/pod-{0}/protpaths-{1}/pathep-[{2}]'.format( pod_id, leafs, interface), ) static_path = INTERFACE_TYPE_MAPPING[interface_type] path_target_filter = {} if pod_id is not None and leafs is not None and interface is not None and ( interface_type != 'fex' or extpaths is not None): path_target_filter = {'tDn': static_path} if interface_mode is not None: interface_mode = INTERFACE_MODE_MAPPING[interface_mode] aci = ACIModule(module) aci.construct_url( root_class=dict( aci_class='fvTenant', aci_rn='tn-{0}'.format(tenant), module_object=tenant, target_filter={'name': tenant}, ), subclass_1=dict( aci_class='fvAp', aci_rn='ap-{0}'.format(ap), module_object=ap, target_filter={'name': ap}, ), subclass_2=dict( aci_class='fvAEPg', aci_rn='epg-{0}'.format(epg), module_object=epg, target_filter={'name': epg}, ), subclass_3=dict( aci_class='fvRsPathAtt', aci_rn='rspathAtt-[{0}]'.format(static_path), module_object=static_path, target_filter=path_target_filter, ), ) aci.get_existing() if state == 'present': aci.payload( aci_class='fvRsPathAtt', class_config=dict( descr=description, encap=encap_id, primaryEncap=primary_encap_id, instrImedcy=deploy_immediacy, mode=interface_mode, tDn=static_path, ), ) aci.get_diff(aci_class='fvRsPathAtt') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json()